META`16 Malaga - Spain - META`17, the 8th International

Transcription

META`16 Malaga - Spain - META`17, the 8th International
META’16 Malaga - Spain
The 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics
Program
July 25 – 28, 2016
Malaga, Spain
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META’16 Malaga - Spain
The 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics
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Edited by
Said Zouhdi | Paris-Sud University, France
Manuel Nieto-Vesperinas | CSIC, Spain
CONTENTS
META’16 ORGANIZATION
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1
SPONSORS AND SUPPORTERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3
PLENARY SPEAKERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5
KEYNOTE SPEAKERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8
META’16 VENUE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
GUIDELINES FOR PRESENTERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
TECHNICAL PROGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
META’16 ORGANIZATION
Said Zouhdi, General Chair
Paris–Sud University, France
Manuel Nieto-Vesperinas, General Co-Chair
CSIC, Spain
ORGANIZING COMMITTEE
Inigo Molina Fernandez, Chair
Universidad de Malaga, Spain
Laurent Daniel, CentraleSupelec, France
Laurent Santandrea, GeePs–CNRS, France
INTERNATIONAL ADVISORY COMMITTEE
Graeme W. Milton, USA
Raj Mittra, USA
Susumu Noda, Japan
Masaya Notomi, Japan
Yahya Rahmat-Samii, USA
Vladimir Shalaev, USA
Harry Atwater, USA
Federico Capasso, USA
Andre de Lustrac, France
Nader Engheta, USA
Tatsuo Itoh, USA
Yuri Kivshar, Australia
Ari Sihvola, Finland
David R. Smith, USA
J(Yiannis) Vardaxoglou, UK
Alexey Vinogradov, Russia
Martin Wegener, Germany
Nikolay Zheludev, UK
TECHNICAL PROGRAM COMMITTEE
Javier Aizpurua, Spain
Tahsin Akalin, France
Xavier Begaud, France
Svetlana V. Boriskina, USA
Kurt Busch, Germany
Che Ting Chan, Hong Kong
Arkadi Chipouline, Germany
Johan Christensen, Spain
David T. Crouse, USA
Alexander Dmitriev, Sweden
Didier Felbacq, France
Michael A. Fiddy, USA
Monika Fleischer, Germany
Wolfgang Fritzsche, Germany
Francisco Garcia-Vidal, Spain
Alexander Govorov, USA
Ortwin Hess, United Kingdom
Rainer Hillenbrand, Spain
Zubin Jacob, Canada
Dai-Sik Kim, Korea
Joachim Krenn, Austria
Kristjan Leosson, Iceland
Jensen Li, Hong Kong
Ferran Martin, Spain
Martin McCall, UK
Fernando Moreno, Spain
Teri Odom, USA
Peter Nordlander, USA
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Elyas Palantei, Indonesia
Dorota Pawlak, Poland
Cheng-Wei Qiu, Singapore
Min Qiu, China
Michael Stuke, Germany
Mohamed Swillam, Egypt
Takuo Tanaka, Japan
Giorgos P. Tsironis, Greece
Augustine Urbas, USA Joel K.
W. Yang, Singapore
Anatoly V Zayats, UK
Xiang Zhang, USA
Lei Zhou, China
SPECIAL SYMPOSIA ORGANIZERS
Alexander Govorov, USA
Xing Yi Ling, Singapore
Jerome Plain, France
SPECIAL SESSIONS ORGANIZERS
Redha Abdeddaim, France
Pierre-Michel Adam, France
Hatice Altug, Switzerland
David Andrews, UK
Christos Argyropoulos, USA
Serkan Ates, Turkey
Pavel Belov, Russia
Henri Benisty, France
Mohamed Boutchich, France
Alberto Bramati, France
Jorge Bravo-Abad, Spain
Pierre-Francois Brevet, France
Humeyra Caglayan, Turkey
Alessandro Casaburi, UK
Bernard Casse, USA
Giulio Cerullo , Italy
Pavel Cheben, Canada
Pai-Yen Chen, USA
Xianzhong Chen, UK
Aristide Dogariu, USA
Ramy El-Ganainy, USA
Mohamed Farhat, Saudi Arabia
Liang Feng, USA
Roberto Fernandez-Garcia, UK
Bruno Gallas, France
Ruben Gerardo Barrera, Mexico
Vincent Ginis, USA
Francisco Gonzalez, Spain
Sebastien Guenneau, France
Robert Halir, Spain
Fumin Huang, UK
Yeon Sik Jung, Korea
Eugene Kamenetskii, Israel
Themos Kallos, Canada
Mikhail Kats, USA
Panagiotis Kosmas, UK
Laura M. Lechuga, Spain
Howard Lee, USA
Jensen Li, UK
Haitao Liu, China
Anatole Lupu, France
Renmin Ma, China
Boris Malomed, Israel
Fernando Moreno, Spain
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Manuel Nieto-Vesperinas, Spain
Wounjhang (Won) Park, USA
Dorota Pawlak, Poland
Junsuk Rho, Korea
Juan J. Saenz, Spain
Jose A. Sanchez-Gil, Spain
Luca Sapienza, UK
Frank Scheffold, Switzerland
Wei-Chuan Shih, USA
Giuseppe Strangi, USA
Mohamed Swillam, Egypt
Philippe Tassin, Sweden
Vasily Temnov, France
Raa’nan Tobey, The Netherlands
Augusto G. Valenzuela, Mexico
Alexandre Vignaud, France
Silvia Vignolini, UK
Jian Wang, China
Hong Wei, China
Fangwei Ye, China
Shuang Zhang, UK
SPONSORS AND SUPPORTERS
META’16 gratefully acknowledges the support of these institutions and companies for their contribution
to the success of this conference :
SUPPORTERS
GOLD SPONSORS
EPL
www.epljournal.org
NT-MDT Co.
www.ntmdt.com
STS-Elionix
www.sts-elionix.com
ACS Photonics
pubs.acs.org/photonics
CST
www.cst.com
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Smart Force Technologies
www.smartforcetechnologies.com
SILVER SPONSORS
WITec
www.witec.de
Neaspec
www.neaspec.com
Photon Design
www.photond.com
BEST POSTER AWARD SPONSOR
ACS Omega
pubs.acs.org/journal/acsodf
Materials Horizons
pubs.rsc.org
CONFERENCE SUPPORT PROGRAM SPONSOR
Symmetry
www.mdpi.com/journal/symmetry
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PLENARY SPEAKERS
Andrea Alu
University of Texas at Austin, USA
Breaking reciprocity and time-reversal symmetry with metamaterials
Andrea Alu is an Associate Professor and the Cockrell Family Dean's Chair
in Engineering Excellence Fellow at the University of Texas at Austin. He
received his PhD from the University of Roma Tre, Italy, in 2007 and, after a postdoc at the University of Pennsylvania, he joined the faculty of the
University of Texas at Austin in 2009. His current research interests span
over a broad range of areas, including metamaterials and plasmonics, electromagnetics, nano-optics, photonics and acoustics. Dr. Alu has authored
and co-authored over 300 journal papers, he is a Fellow of IEEE, OSA, and APS, and has received
several scientific awards, including the NSF Alan T. Waterman award (2015), the OSA Adolph Lomb
Medal (2013), the URSI Issac Koga Gold Medal (2011), and the Edith and Peter O’Donnell Award in
Engineering (2016).
Harry Atwater
California Institute of Technology, USA
Harry Atwater is currently Howard Hughes Professor and Professor of Applied Physics and Materials Science at the California Institute of Technology. His research interests center around two interwoven research themes :
photovoltaics and solar energy ; and plasmonics and optical metamaterials.
Atwater and his group have been active in photovoltaics research for more
than 20 years. Recently they have created new photovoltaic devices, including silicon wire array solar cells, and transferred-layer designs for III-V semiconductor and multijunction cells. They are making exciting advances in
plasmonic light absorber structures for III-V compound and silicon thin films. Atwater is an early pioneer
in surface plasmon photonics ; he gave the name to the field of plasmonics in 2001. He has authored
or co-authored over 200 publications, and his group's developments in the solar and plasmonics field
have been featured in Scientific American and in research papers in Science, Nature Materials, Nature
Photonics and Advanced Materials.
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Stephen M. Barnett
University of Glasgow, UK
Optical forces on exotic materials
Stephen Barnett studied for both his Bachelors and Doctoral degrees at Imperial College London, receiving his PhD in 1985. He is currently the Cargill Chair of Natural Philosophy at the University of Glasgow. His principal
field of expertise is in quantum theory, most especially quantum optics and
quantum information, but he has very wide research interests including atomic physics, optics, relativity, low temperature physics and aspects of chiral
chemistry. He is best known for his discovery with David Pegg of the correct form of the quantum phase operator, his resolution of the long-standing
Abraham-Minkowski dilemma concerning he momentum of light in a medium, and his extensive work
with Miles Padgett on the angular momentum of light. His contributions have been recognised through
the awards of the Maxwell Medal (1994) and the Dirac Prize (2013).
Nader Engheta
University of Pennsylvania, USA
Near-Zero Photonics
Nader Engheta, is the H. Nedwill Ramsey Professor at the University of
Pennsylvania in Philadelphia, with affiliations in the Departments of Electrical and Systems Engineering, Materials Science and Engineering, Physics
and Astronomy, and Bioengineering. He received his B.S. degree from the
University of Tehran, and his M.S and Ph.D. degrees from Caltech. He has
received several awards for his research including the 2015 Fellow of US
National Academy of Inventors (NAI), the 2015 Gold Medal from SPIE (the
international society for optics and photonics), the 2015 National Security
Science and Engineering Faculty Fellowship (NSSEFF) Award from US Department of Defense, the
2015 IEEE Antennas and Propagation Society Distinguished Achievement Award, the 2015 Wheatstone Lecture in King's College London, the 2014 Balthasar van der Pol Gold Medal from the International Union of Radio Science (URSI), the 2013 Inaugural SINA Award in Engineering, the 2013 Benjamin
Franklin Key Award, the 2012 IEEE Electromagnetics Award, the 2008 George H. Heilmeier Award for
Excellence in Research, the Fulbright Naples Chair Award, NSF Presidential Young Investigator award,
the UPS Foundation Distinguished Educator term Chair, 2006 Scientific American Magazine 50 Leaders
in Science and Technology, Guggenheim Fellowship, and IEEE Third Millennium Medal. He is a Fellow
of six international scientific and technical societies, i.e., IEEE, APS, OSA, MRS, SPIE, and American
Association for the Advancement of Science (AAAS). His current research activities span a broad range
of areas including nanophotonics, metamaterials, nano-scale optics, graphene optics, imaging and sensing inspired by eyes of animal species, optical nanoengineering, microwave and optical antennas, and
engineering and physics of fields and waves. He has co-edited (with R. W. Ziolkowski) the book entitled
"Metamaterials : Physics and Engineering Explorations" by Wiley-IEEE Press, 2006. He was the Chair
of the Gordon Research Conference on Plasmonics in June 2012.
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Demetrios Christodoulides
University of Central Florida, USA
Demetrios Christodoulides is the Cobb Family Endowed Chair and Pegasus Professor of Optics at CREOL-the College of Optics and Photonics of
the University of Central Florida. He received his Ph.D. degree from Johns
Hopkins University in 1986 and he subsequently joined Bellcore as a postdoctoral fellow at Murray Hill. Between 1988 and 2002 he was with the
faculty of the Department of Electrical Engineering at Lehigh University. His
research interests include linear and nonlinear optical beam interactions,
synthetic optical materials, optical solitons, and quantum electronics. He
has authored and co-authored more than 250 papers. He is a Fellow of the
Optical Society of America and the American Physical Society. In 2011 he received the R.W. Wood
Prize of OSA.
Sir John Brian Pendry
Imperial College London, UK
Transformation optics, surface plasmons, and metasurfaces
Sir John B. Pendry is an English theoretical physicist educated at Downing
College, Cambridge, UK, graduating with a Master of Arts degree in Natural Sciences and a PhD in 1969. He is a professor of theoretical solid state physics at Imperial College London where he was Head of the Department of Physics (1998 - 2001) and Principal of the Faculty of Physical
Sciences (2001 - 2002). John Pendry has made seminal contributions to
surface science, disordered systems and photonics. His most famous work
has introduced a new class of materials, metamaterials, whose electromagnetic properties depend on
their internal structure rather than their chemical constitution. He discovered that a perfect lens manufactured from negatively refracting material would circumvent AbbeÊijs diffraction limit to spatial resolution,
which has stood for more than a century. His most recent innovation of transformation optics gives the
metamaterial specifications required torearrange electromagnetic field configurations at will, by representing the field distortions as a warping of the space in which they exist. In its simplest form the theory
shows how we can direct field lines around a given obstacle and thus provide a cloak of invisibility.
John Pendry’s outstanding contributions have been awarded by many prizes, among which the Dirac
Prize(1996), the Knight Bachelor (2004), the Royal Medal (2006), the Isaac Newton Medal (2013) and
the Kavli Prize (2014).
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David R. Smith
Duke University, USA
Translational Metamaterials Research : Taking Metamaterials from the Laboratory to the Marketplace
David R. Smith is currently the James B. Duke Distinguished Professor of
Electrical and Computer Engineering Department at Duke University and
Director of the Center for Metamaterial and Integrated Plasmonics. He also
holds the positions of Adjunct Associate Professor in the Physics Department at the University of California, San Diego, and Visiting Professor of
Physics at Imperial College, London. Dr. Smith received his Ph.D. in 1994
in Physics from the University of California, San Diego (UCSD). Dr. Smith’s research interests include the theory, simulation and characterization of unique electromagnetic
structures, including photonic crystals and metamaterials.
Smith and his colleagues at UCSD demonstrated the first left-handed (or negative index) metamaterial
at microwave frequencies in 2000–a material that had been predicted theoretically more than thirty years
prior by Russian physicist Victor Veselago. No naturally occurring material or compound with a negative
index-of-refraction had ever been reported until this experiment. In 2001, Smith and colleagues followed
up with a second experiment confirming one of Veselago’s key conjectures : the ’reversal’ of Snell’s law.
These two papers–the first published in Physical Review Letters and the second in Science–generated
enormous interest throughout the community in the possibility of metamaterials to extend and augment
the properties of conventional materials. Both papers have now been cited nearly 4,000 times each.
KEYNOTE SPEAKERS
David Andrews
University of East Anglia, UK
Exploring nanoscale chirality : issues of parity, scale and measurement
Federico Capasso
Harvard University, USA
High Performance Visible Wavelength Dielectric Metasurfaces for Planar Photonic Components
Benoit Deveaud
EPFL, Switzerland
Microcavity polaritons : fundamental physics and devices
Nicholas X. Fang
MIT, USA
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Mathias Fink
Institut Langevin, France
Wave Control with space-time transformations
Javier Garcia de Abajo
ICFO-The Institute of Photonic Sciences, Spain
Nanoplasmonics in 2D and atomic-scale materials
Alexander Govorov
Ohio University, USA
Quantum Phenomena in Hybrid Nanostructures : Exciton-Plasmon Interactions
and the Quantum Structure of the Plasmon Excitations
Laura M. Lechuga
Catalan Institute of Nanoscience and Nanotechnology (CSIC), Spain
Nanoplasmonic biosensors for real applications : trends and challenges
Boris Luk'yanchuk
Data Storage Institute (A*STAR), Singapore
Selected problems of light scattering by dielectric nanostructures
Teri W. Odom
Northwestern University, USA
Real-time Tunable Nanoparticle Lasing Spasers
Omar Ramahi
University of Waterloo, Canada
Metamaterial Elements as Huygens Radiators
Juan Jose Saenz
Donostia International Physics Center (DIPC), Spain
Casimir-like forces between particles under fluctuating optical fields
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Vladimir Shalaev
Purdue University, USA
Nanophotonics with Plasmonic Ceramics
Ari Sihvola
Aalto University, Finland
Anisotropy makes the difference : systropic, bulbic, and porcupic metamaterials
Marin Soljacic
MIT, USA
Topologically Non-Trivial States in Photonic Crystals
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META’16 VENUE
META’16 will be held at the Palacio de Congresos y Exposiciones de la Costa del Sol (Torremolinos
Congress Center), 3 Calle Mexico, 29620 Torremolinos, Spain, from 25 to 28 July 2016.
GETTING TO VENUE
Address
Palacio de Congresos y Exposiciones de la Costa del Sol, 3 Calle Mexico, 29620 Torremolinos,
Spain.
Getting to Torremolinos from Malaga Airport
Torremolinos is around 8km away from Malaga international airport. You can go from the airport to the
city center by taxi, by train or by bus.
By Taxi
The airport has a well-signposted taxi rank outside the arrivals area of Terminal T3. Make sure that the
taxi driver has started the taximeter at the beginning of the journey (minimum fare). We recommend
requesting a receipt for any complaint or claim. The cost of a taxi from the airport into Torremolinos City
Centre will cost between C15-20 depending on your time of travel.
By Train
The new suburban train station in the new Terminal T3 building links the airport with Torremolinos city
centre and other cities like Benalmadena and Fuengirola in one direction, and it links Malaga city center
in the other direction.
The new train station is situated underground and accessed via escalators. It is well signposted and can
be reached via the square outside arrivals or outside departures. Before the station entry barriers you
will see several self-service tickets machines on your right where you can buy your tickets.
The first train to Torremolinos leaves the airport at 05 :32, leaving every 20-30 minutes until the last train
at 23.42. Line : C1. Estimated travel time : 10 minutes. The single fare for this journey is C1.80.
By Bus
You will find the bus stop straight in front of you outside the arrivals area of Terminal T3 on the side of
the road where there are a couple of shelters with seats.
You will also see a ticket office in the left hand corner of the arrivals forecourt where you should purchase your tickets for the journey. Line : Torremolinos-Benalmadena-Airport. Estimated travel time : 30
11
minutes. The single fare for this journey is C3.80.
Getting to Torremolinos from Malaga train station
There are two train stations in the centre of Malaga : Maria Zambrano and Centro Alameda. Maria Zambrano station provides high-speed (AVE) and long-distance links to many Spanish cities like Barcelona,
Cordoba, Madrid, Santiago de Compostela, Seville..., as well as local and regional routes.
You can take Line C1 from any of the two stations to reach Torremolinos. Estimated travel time : 20
minutes. The single fare for this journey is âĆň1.80. You can check the timetables on the website of the
national rail company RENFE (http ://www.renfe.com/viajeros/cercanias/malaga/).
Getting to Torremolinos from Malaga bus station
Malaga bus station is located at the street "Paseo de los Tilos" very near Maria Zambrano train station. So it will be very easy to take a bus or a train from this station. You can take bus line MalagaTorremolinos. Estimated travel time : 20 minutes. The single fare for this journey is C1.42.
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GUIDELINES FOR PRESENTERS
ORAL PRESENTATIONS
Each session room is equipped with a stationary computer connected to a LCD projector. Presenters
must load their presentation files in advance onto the session computer. Technician personnel will be
available to assist you.
Scheduled time slots for presentation are 15 mn for regular, 20 mn for invited presentations, 30 mn
for keynote talks and 40 mn plenary talks, including questions and discussions. Presenters are required
to report to their session room and to their session Chair at least 15 minutes prior to the start of their
session.
The session chair must be present in the session room at least 15 minutes before the start of the
session and must strictly observe the starting time and time limit of each paper.
POSTER PRESENTATIONS
Presenters are requested to stand by their posters during their session. One panel, A0 size (118.9 x
84.1 cm), in vertical orientation, will be available for each poster (there are no specific templates for posters). Pins or thumbtacks are provided to mount your posters on the board. All presenters are required
to mount their papers one hour before the session and remove them at the end of their sessions.
GENERAL INFORMATION
Venue
Palacio de Congresos y Exposiciones de la Costa del Sol (Torremolinos Congress Center)
3 Calle Mexico, 29620 Torremolinos, Spain
Registration Desk
Sunday 24 July (15 :30 – 18 :30) : Reception of the Congress Center
25 July – 28 July (08 :00 – 17 :00) : Reception of the Congress Center
Banquet
Date : Wednesday, 27 July
Time : 19 :30 – 23 :’30
Venue : Malaga
Best Poster Awards Ceremony
Date : Wednesday, 27 July (to be announced at the Conference Banquet)
Time : 19 :30 – 23 :00
Venue : Malaga
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TECHNICAL PROGRAM
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META’16 Malaga Program
Sunday 24th July, 2016
Sunday 24th July, 2016
Registration
Reception of the Congress Center
15:30 - 18:30
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META’16 Malaga Program
Monday 25th July, 2016
Monday 25th July, 2016
Registration
Lobby
08:00 - 18:00
Opening ceremony
Malaga
08:45 - 09:00
09:00 - 10:20 — Malaga
Session 1A1
Plenary Session I
Chaired by: Vladimir Shalaev
09:00 : Plenary talk
Non-Hermitian photonics: PT symmetry and beyond
Demetrios N. Christodoulides
University of Central Florida (USA)
The idea of judiciously utilizing both optical gain and loss has been recently suggested as a means to control
the flow of light. This proposition makes use of some newly developed concepts based on non-Hermiticity and
parity-time (PT) symmetry. By harnessing such notions, recent works indicate that novel synthetic structures
and devices with counter-intuitive properties can be realized – potentially enabling new possibilities in the
field of optics and integrated photonics.
09:40 : Plenary talk
Translational Metamaterials Research: Taking Metamaterials from the Laboratory to the Marketplace
David R. Smith
Duke University (USA)
Coffee Break and Exhibit Inspection
Session 1P1
Poster session I
10:20 - 11:00
P1: Locally Self-uniform Photonic Networks
Steven Sellers1 , Weining Man2 , Marian Florescu1
1
University of Surrey (United Kingdom), 2 San Francisco State University (USA)
Connections between geometry and optical properties help us understand light’s interaction with structured
media. Here we introduce local self-uniformity to explore fundamental physics and unlock advanced optical
control. Local self-uniformity measures the internal spatial similarities of a random network and unites the
set of observed photonic band gap structures. We demonstrate its significance by generating novel band gap
amorphous gyroid networks and we present a naturally-occurring network with amorphous gyroid character
in the butterfly Pseudolycaena marsyas.
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META’16 Malaga Program
Monday 25th July, 2016
P2: Designing hyperuniform structures for efficient light harvesting
Georgios Gkantzounis, Marian Florescu
University of Surrey (United Kingdom)
Photonic crystals have been proven very efficient for light manipulation. Lately, this has become even more
efficient by the use of hyperuniform structures, which exhibit much richer Fourier spectra. We discuss a new
approach to the design of hyperuniform structures for explicitly targeting a given Fourier spectrum. We were
able to design large hyperuniform structures of different geometrical types and vanishing contribution to the
radiative Fourier components. Consequently, we observe efficient light absorption in all cases considered.
P3: Two photon luminescence microscopy maps the plasmonic density of state and plasmon propagation in 2D gold crystals
Upkar Kumar1 , Universite Federale de Toulouse Viarbitskaya1 , Aurelien Cuche1 , Gerard Colas des
Francs2 , Rafaelle Mezzenga3 , Christian Girard1 , Alexandre Bouhelier2 , Erik Dujardin1
1
Universite Federale de Toulouse (France), 2 Universite de Bourgogne (France), 3 ETH Zurich (Switzerland)
We report on using two photon luminescence microscopy as an optical imaging technique for probing both
the spatial distribution of Surface Plasmon Local Density of States (SP-LDOS) and the transmission efficiency
inside chemically-grown crystalline gold platelets.
P4: Theory for the diffusion of light polarization in disordered media with short-range structural correlations
Kevin Vynck1 , Romain Pierrat2 , Remi Carminati2
1
Bordeaux University (France), 2 Institut Langevin (France)
We develop a model based on multiple scattering theory to describe the diffusion of light polarization in a disordered medium exhibiting structural correlations. A radiative transfer equation for the polarization-resolved
specific intensity is derived and solved analytically in the diffusion approximation. Our study reveals the intricate relation between light polarization and short-range structural correlations.
P5: Polarization statistics in disordered media:Modelization and measurements
Myriam Zerrad, Ayman Ghabbach, Gabriel Soriano, Quentin Ailloud, Claude Amra
Aix Marseille Universite (France)
A statistical study of polarimetric parameters of the speckle scattered by a disordered media under coherent illumination is presented. A dedicated metrology was developed to measure accurate histograms of the
polarization degree. Recorded data are compared to modelization and structural signatures are extracted to
analyze complex media.
P6: Metasurfaces becoming real: a new class of polarimeters
Anders Pors, Sergey I. Bozhevolnyi
University of Southern Denmark (Denmark)
Based on appropriately designed phase-gradient birefringent metasurfaces, we introduce a new type of compact polarimeter that, unlike conventional approaches, allows one to easily analyze an arbitrary state of light
polarization by conducting simultaneous (i.e., parallel) measurements of the corresponding diffraction intensities. We experimentally demonstrate the functionality of the proposed device at a wavelength of 800nm, while
also addressing extensions of the design concept to in-plane polarimeters and spectrally-resolved measurements.
P7: Extension of standard transfer-matrix method for three-wavemixing for plasmonic structures
Ardi Loot, Vladimir Hizhnyakov
University of Tartu (Estonia)
Fast and accurate modelling of three-wave mixing processes in arbitrary stratified medium has significant
practical and scientific importance. Several attempts to generalize transfer-matrix method (TMM) for nonlinear
interactions have been made, however none suits for easy-to-use modelling of plasmonic structures which
requires oblique angle of incidence, p-polarization and minimal approximations. In this work, an easy-to-use
extension to standard TMM is proposed. The proposed method is used to study the strength of unconventional
plasmonic enhancement of second harmonic generation (SHG).
P8: Fano and Induced Transparency in Plasmon Based Optical Sensors
Zouheir Sekkat1 , Shinji Hayashi2
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META’16 Malaga Program
1
Monday 25th July, 2016
Mohammed V University (Morocco), 2 Osaka University (Japan)
During the past few years, we have been involved in the study of optical sensors, in particular the plasmonic
sensors, to achieve ultra-high sensitivities. As is well known, the sensitivity of the conventional surface plasmon resonance (SPR) sensor based on a single layer of Au is not very high because of the broad lineshape
of the resonance. We propose here alternative ways to improve the sensitivity and to achieve extremely high
sensitivities.
P9: Full-spectrum solar light absorbtion and photothermal conversion with Ge-Sn on black silicon
Yoshiaki Nishijima1 , Ryosuke Komatsu1 , Takuya Yamamura1 , Gediminas Seniutinas1 , Armandas Balcytis2 ,
Saulius Juodkazis3
1
Yokohama National University (Japan), 2 Swinburne University ofTechnology (Australia), 3 Swinburne University of Technology (Australia)
Harvesting entire solar light energy is desired for developing a sustainable energy supply for society. Solar
cells still have unavoidable energy loss due to the heat generation. Also, transparency window for longer
wavelength is not utilised for the photocurrent conversion. Here we demonstrate the photo-thermo-electric
conversion system for the harvesting broad-band solar energy that can not be used in Si solar cell by direct
absorption. Black silicon reducing the reflection of surface, and Ge-Sn layer is absorbing the full spectral
wavelength of solar light.
P10: Hybrid surface plasmon modes in metallic nanostructures: Complete numerical analysis and
application to bio-sensing
Mitradeep Sarkar1 , Jean-Francois Bryche1 , Raymond Gillibert1 , Julien Moreau1 , Mondher Besbes1 ,
Aurore Olivero1 , Gregory Barbillon1 , Bernard Bartenlian1 , Marc Lamy de la Chapelle2 , Michael Canva1
1
Universite Paris Sud (France), 2 Universite Paris-Nord (France)
We introduce a simple analytical model to predict the existence of all the different plasmonic modes and their
dispersion in a hybrid nano-structured geometry consisting of an array of metallic particles with an underlying
metallic film. Such detailed description of plasmonic modes can offer a complete understanding of the surface
plasmon resonance phenomena in such metallic structures and allows their optimization as per required for
various applications such as SPR detection and SERS.
P11: Enhanced light emission in organic materials caused by constructive surface plasmon generation and scattering
Takahiro Inui1 , Yuhta Mizoguchi1 , Takuya Yoneda1 , Taichi Ishiguro1 , Kenichi Kasahara1 , Naoki Ikeda2 ,
Yoshimasa Sugimoto2
1
Ritsumeikan University (Japan), 2 Nanotechnology Innovation Center (Japan)
Photoluminescence enhancement observed in Alq3 with Ag was 3-4 at output angles, which could not be
explained by the calculated scattering rate of surface plasmons. Experimental results suggested that surface
plasmons were generated in phase at the same time, and scattered simultaneously. Aggregate behavior of
the energy transfer of excitions to surface plasmons can happen, because excitions inthe organic film exist
mere nanometers apart.
P12: Plasmonic color printing combining conjugate twin phase modulation with plasmonic broadband
absorption
Jiancai Xue, Zhang-Kai Zhou, Xue-Hua Wang
Sun Yat-sen University (China)
Plasmonic color printing has a promising future as a new generation of color printing technology. As for
practical application, the problems of color gamut and production area need to be addressed. Here, we
realize scalable and full-color plasmonic color printing by combining conjugate twin phase modulation with
plasmonic broadband absorption. Furthermore, we develop plasmonic color printing with reversibly colorchanging capability, giving rise to enormous potentials in special label, anti-counterfeiting, and even highdensity data encryption storage.
P13: UV Circular Polarization Selection using Aluminum Nano-Spirals
Matthew S. Davis1 , J. Strait2 , J. K. Lee1 , S. Blair3 , A. Agrawal2 , H. J. Lezec2
1
Syracuse University (USA), 2 Center for Nanoscale Science and Technology (USA), 3 University of Utah (USA)
Manipulating ultraviolet light presents unique challenges in technology. Here we demonstrate circular polarization selection at ultraviolet wavelengths over subwavelength distances using a flat-optical device consisting
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of Al chiral nanospirals periodically patterned on a glass substrate.
P14: 3D toroidal metamaterial on suspended SiN film
Z. Liu1 , Shuo Du2 , Z. C. Li2 , S. Q. Chen1 , Junjie Li1 , Changzhi Gu1
1
Chinese Academy of Sciences (China), 2 Nankai University (China)
Toroidal metamaterial on suspended SiN film was fabricated by focused ion beam induced bending technique.
The SiN film plays the role of framework, while the metal patterns on the vertical SiN flakes comprise the
toroidal molecule. Toroidal and magnetic dipole moments can be excited by vertical incident light, which
can be distinguished by the current and magnetic field distribution. Compared to horizontally incidence, the
resonance here has the same frequency but much larger transmission modulation depth.
P15: Ag and Au nanoparticles synthesis with pulsed laser ablation in monomer solution
Igor Denisyuk, Natalia Zulina, Il’ya Pavlovets
ITMO University (Russia)
In this study Ag and Au nanoparticles were obtained with pulsed laser ablation method in liquid substance.
As liquid monomer solutions of two different photocurable polymers were picked - carboxyethyl acrylate and
isodecyl acrylate. UV-visible spectroscopy and SEM investigation showed that obtained nanoparticles have
size distribution from 50 to 200 nm. Also, polymerization process was carried out for nanocomposite synthesis
and its biomedical application study.
P16: Refractive index sensitivity characteristics of dual-resonant plasmonic perfect absorber
Mustafa Turkmen, Sabri Kaya, Semih Korkmaz, Ekin Aslan
Erciyes University (Turkey)
We proposed a plasmonic perfect absorber (PPA) based on double bowtie shaped plasmonic nanoantenna
arrays operating in mid-infrared regime. We investigated the spectral responses and surface-enhanced infrared absorption (SEIRA) enhancements of nanostructures by using finite difference time domain (FDTD)
method. We studied refractive index sensing characteristics by embedding nanostructures into different cladding media. Owing to the high SEIRA enhancements and strong absorption peaks, designed PPA can be
utilized in infrared sensing and high refractive index sensing applications.
P17: Disordered plasmonic nanoholes in Ag thin films
Kumar R. M. Piragash, Alagesan Venkatesh, V. H. S. Moorthy
Manipal University (India)
Extraordinary transmission of light through subwalength holes in a metallic thin film offers potential applications in optoelectronic and sensing devices. Here, we present the optical properties of disordered nanoholes
in optically thick silver thin films - fabricated by a novel technique. The disordered nanoholes exhibit strongly
enhanced broadband optical transmission and highly localized electric fields which find potential applications
in photovoltaic and sensing devices respectively.
P18: Tailoring Resonances in Hybridized Plasmonic Systems
Ashok Kodigala, Thomas Lepetit, Boubacar Kante
University of California (USA)
We present a plasmon hybridization picture for a system with coupled plasmonic bars and investigate its
resonance dynamics by computing the complex poles of the scattering matrix for the purpose of designing
better plasmonic devices.
P19: Metal-Dielectric Flexible Films for Ultrahigh Transmission
Jin-Young Na, Yoon-Jong Moon, Da-Som Kim, Sun-Kyung Kim
Kyung Hee University (Korea)
We investigated high-tranmittance dielectric-metal-ITO multilayer films for developing high-efficiency GaNbase light-emitting diodes using the scattering matrix method. An optically-thick (10-12 nm) metal layer sandwiched by a dielectric layer and an ITO layer yielded a transmittance of 0.94, which surpasses the maximum
transmittance (0.91) of a single ITO film. Further, we investigated the transmission of metal-dielectric films
depending on the refractive index and thickness of the dielectric layer.
P20: High-Index-Contrast Bubble Patterns for High-Efficiency Light Emitting Devices
Yoon-Jong Moon1 , Jin-Young Na1 , Da-Som Kim1 , Dae-Woong Hwang1 , Dukkyu Bae2 , Euijoon Yoon3 ,
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Sun-Kyung Kim1
Kyung Hee University (Korea), 2 Hexa Solution Co. (Korea), 3 Seoul National University (Korea)
1
Two-dimensional high-index-contrast dielectric gratings exhibit unconventional diffraction features. Here, we
demonstrate monolithic growth templates capable of supporting enhanced outcoupling ability for light-emitting
devices. Rationally-designed high-index-contrast air bubble patterns lead to intensified strength for the low
oreder diffraction modes. Furthermore, we demonstrate a new type of economically viable InGaN/GaN LED
devices outperforming state-of-the-art patterned sapphire substrate LED devices.
P21: Applying the Otto geometry to access the intrinsic nonlinearity of propagating surface plasmon
modes
Jan Heckmann1 , Karsten Pufahl1 , Nicolai B. Grosse1 , John E. Sipe2 , Ulrike Woggon1
1
Technical University of Berlin (Germany), 2 University of Toronto (Canada)
A high resolution k-space-spectroscopy setup is applied to analyze linear and non-linear surface plasmon
resonances that are excited by evanescent fields in the Otto geometry.This non-invasive approach allows a
detailed analysis of supported resonances in thin films aswell as in bulk materials. The results are confirmed
by theoretical calculations based on thehydrodynamic model.
P22: Hole arrays in metal film as distributed feedback plasmonic laser and its dynamics
Andrey Pavlov, I. V. Zabkov, V. V. Klimov
Dukhov Research Institute of Automatics (VNIIA) (Russia)
In this work we have studied lasing characteristics of the array of nanoholes in silver film covered with gain
medium. We have analyzed mode structure of the system with and without pump and determined lasing
frequencies and non-interacting lasing thresholds for all modes. Varying angle and wavelength of pump field,
we have found optimal pump conditions for lasing. Subsequent numerical time domain modeling of laser
generation have showed that predicted values for the first lasing mode threshold are accurate.
P23: Probing the radiative and full electromagnetic local densities of states through electron energy
loss spectroscopy and cathodoluminescence spectroscopy
Arthur Losquin1 , Mathieu Kociak2
1
Lund University (Sweden), 2 Laboratoire de Physique des Solides (France)
Electron Energy Loss Spectroscopy (EELS) and CathodoLuminescence spectroscopy (CL) have become
popular to study the surface plasmon modes of metallic nanoparticles. By combining EELS and CL on single
nanoobjects, we showed that EELS and CL signals differ. Whereas EELS measures a quantity close to the
full ElectroMagnetic Local Density Of States (EMLDOS) projected along the electron trajectory, CL measures
a quantity close to the radiative EMLDOS projected along the electron trajectory.
P24: Surface plasmon generation by light scattering in terminated metallic slabs: interference effects
between diffracted light and surface waves
Luis Angel Mayoral-Astorga, Jorge Alberto Gaspar-Armenta, Felipe Ramos-Mendieta
Universidad de Sonora (Mexico)
We use the Finite Difference Time Domain (FDTD) method to study the scattering of light at the edge of
a metallic terminated slab. The first result is the generation of a surface plasmon polariton. Additionally,
interference effects between the surface wave and the diffracted fields are observed. We report the formation
of a series of low field intensity spots in the air region above the surface that result from this interference
mechanism.
P25: Theory and Experiment on Coherent Nanoscopic Light-sources: Spasers vs. Nano-Lasers
Gunter Kewes1 , Kathrin Herrmann1 , Andreas Ott2 , Rogelio Rodriguez-Oliveros1 , Alexander Kuhlicke1 ,
Yan Lu2 , Matthias Ballauff2 , Kurt Busch2 , Oliver Benson2
1
Humboldt-Universitat zu Berlin (Germany), 2 Helmholtz-Zentrum Berlin (Germany)
We present experimental as well as theoretical results, which clearly demonstrate that particle-based spasers feature a much poorer performance than expected so far. On the other hand, we suggest that only a
renaissance of low loss dielectrics as resonator material (with high index of refraction) will enable ecient
nano-lasers.
P26: Exploring scattering phenomena at the nano-scale by angle- and polarization-resolved cathodoluminescence spectroscopy and imaging
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Viktor Myroshnychenko1 , Natsuki Nishio2 , Jens Forstner1 , Naoki Yamamoto2
University of Paderborn (Germany), 2 Tokyo Institute of Technology (Japan)
1
We fabricate single and coupled gold nanoprisms using electron beam lithography. Plasmon modes of these
structures are investigated using an angle- and polarization - resolved cathodoluminescence (CL) measurements. We demonstrate that an angle- and polarization - resolved CL provides insight into the nature of the
plasmon modes in the nanostructures. Our results show that dark modes in bow-tie antennas can be efficiently excited by electron beam and detected by photon detection system. Our experiments are supported
by numerical simulations.
P27: Metallic nanocylinder metasurfaces for filtering and reflecting properties in the visible spectrum
Herve Bertin1 , Yoann Brule2 , Guillaume Demesy2 , Anne-Laure Fehrembach2 , Boris Gralak2 , Evgueni
Popov2 , Gerard Tayeb2 , David Barat3 , Philippe Gogol1 , Vi Yam1 , Beatrice Dagens1
1
University Paris-Sud (France), 2 Aix-Marseille University (France), 3 PSA Peugeot Citroen (France)
Plasmonic resonance in an array of silver nanoparticles is used to create a transparent reflective filter in the
visible range. Transmittance and reflectance are measured from 400 to 900 nm.
P28: Tunable optomagnets in diamagnetic thin metal layers and plasmonic nano-antennas
Yannick Lefier1 , U. Fischer2 , T. Grosjean1
1
Femto-ST Institute (France), 2 Interface physics (Germany)
We study the optical generation and tuning of highly confined DC magnetic fields directly in metals. We first
predict the transfer of orbital angular moment of light to the free electrons of thin metal layers excited with
tightly focused beams (leading to tiny loops of DC current). We also show that plasmonic nano-antennas can
be magnetized by light and we study how the plasmonic resonances in play can enhance and control the
optically induced magnetization.
P29: Smith-Purcell radiation emission by non-periodic array nanostructures
Jose Ramon Martinez-Saavedra, David Castells, Javier Garcia de Abajo
ICFO-The Institute of Photonic Sciences (Spain)
In this work we study the possibility of SPR emission from non-periodic array structures: we analyze the
necessary conditions for Smith-Purcell emission by arbitrary arrays which present long-range order, with
focus on quasiperiodic and hyperuniform configurations, and compare them with the periodic array case. We
conclude that SPR can appear not only in periodic structures but also in non-periodic structures as well, in
the case the non-periodic structure presents long-range order properties.
P30: Foerster resonance energy transfer in inhomogeneous non-dispersive nanophotonic environments
Martijn Wubs1 , Willem L. Vos2
1
Technical University of Denmark (Denmark), 2 University of Twente (The Netherlands)
A nondispersive inhomogeneous dielectric environment of a donor-acceptor pair of quantum emitters affects
their Foerster resonance energy transfer (FRET) rate. We find that this rate does not depend on the emission
frequency and hence not on the local optical density of states (LDOS) at that frequency, but that it can be
expressed as a broad frequency integral over the optical LDOS. Our numerical results illustrate that even with
the broadband LDOS it is hard to control the FRET rate.
P31: Optical Multiple Bistability in Metal-Insulator-Metal Plasmonic Waveguides Side-coupled with
Twin Resonators
Ruei-Cheng Shiu, Yung-Chiang Lan, Guang-Yu Guo
National Taiwan University (Taiwan)
We investigate the resonant transmissions surface plasmons that propagate in a metal-insulator-metal (MIM)
waveguide side-coupled to two MIM racetrack resonators in which optical third-order nonlinear material is
filled, by the coupling mode analyses and finite-difference time-domain simulations. We find the multiple bistabilities and the hysteresis phenomena in the transmission coefficient as the input intensity varies. Furthermore, the mode conversion between the bistable states can be controlled by varying the input-gate intensity
with a short switching time.
P32: Plasmonic magneto-optical light modulator with the domain wall manipulation via giant magnetoelectric effect
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Nikolai Evgen’evich Khokhlov, Anastasiya Khramova, Elena Nikolaeva, Tatiana Kosykh, Alexey Nikolaev, Alexander Pyatakov, Vladimir Belotelov
M.V. Lomonosov Moscow State University (Russia)
We consider a new method of light modulation via the magneto-optical effects in magneto-plasmonic crystals.
The modulation of the structure’s magnetization in this case is induced by the electric field of the charged tip.
So, the variations of the voltage on the needle produce the shift of a domain wall in the magnetic film due to
the magnetoelectric effect and local magnetization switching.
P33: Induced modulation instability of surface plasmon polaritons in an ultra-thin metal film
Sergey Moiseev1 , D. Korobko1 , I. Zolotovskii1 , S. Sukhov2
1
Ulyanovsk State University (Russia), 2 Russian Academy of Sciences (Russia)
The effect of the modulation instability of surface plasmon polariton waves in an ultra-thin metal film is demonstrated. It is shown that the modulation instability effect could be used for the generation of signals with a
repetition rate in the terahertz range and ultrafast trains of picosecond optical pulses.
P34: Luminescence upconversion of Er3+ doped tellurite glass through subwavelengh metallic nanostructures
Otavio Brito Silva, Victor Antony Garcia Riveira, Sebastiao Pratavieira, Euclydes Marega Junior
University of Sao Paulo (Brazil)
This manuscript addresses the upconversion excitation and emission obtained from an Er3+-doped tellurite
glass through nanostructured metallic surfaces consisting of a square lattice of subwavelengh slits fabricated
on a gold thin film. The periodic nanostructures were fabricated with a Focused Gallium Ion Beam on a
gold thin film deposited onto an Er3+-doped tellurite glass. The Er3+ ion was excited using 980nm and the
luminescence spectra measured at the far-field (in the 400-700 nm wavelength range).
P35: Coherent and non-coherent interactions between quantum emitters induced by plasmonic hot
spots
Jun Ren, Xiangdong Zhang
Beijing Institute of Technology (China)
The theoretical method to study strong interactions between an ensemble of quantum emitters mediated
by plasmonic nanoparticle cluster has been presented by using a rigorous first-principles electromagnetic
Green’s tensor technique. We find that strong coherent and non-coherent interactions could be observed
in the same plasmonic hot spots system under different frequencies. These two interactions could lead to
multifrequency multi-qubit entanglement and coherent energy transfer between emitters respectively in the
hot spot systems.
P36: Study of Surface Plasmons in 1D and 2D Structured Metallic Surfaces
Raul Garcia-Llamas1 , Sandra Luz Gastelum-Acuna1 , Damasio Morales-Cruz2 , Aldo Santiago RamirezDuverger1
1
University of Sonora (Mexico), 2 National Polytechnic Institute of Mexico (Mexico)
The one-dimensional (1D) structures were fabricated by means of the two-beam interference technique. The
surfaces were covered with an aluminum thick film. Transverse magnetic reflection spectra were measured for
metallic gratings. The experimental spectra exhibited a minimum due to the excitation of surface plasmons,
which was coupled by light via the gratings. The experimental results are compared with Rayleigh theory.
P37: Optical spin-orbit interaction in plasmonic structures
Feng Lin
Peking University (China)
Au nanostructures can be fabricated to intentionally guide the propagation of surface plasmon polaritons
(SPPs), which leads to the varying of propagating directions for the SPP beams, and thus generates the
orbital angular momentum (AM) of SPPs. Here, we investigated the coupling of such plasmonic orbital AM
with optical spin AM, and found that the chiral characteristics of Au nanostructures impose great effects on
the electromagnetic modes of SPPs under this spin-orbit interactions.
P38: Resonance Coupling between Excitons and Magnetic Dipole Resonances in Hybrid Nanostructure Composed of J-Aggregate and Dielectric Nanoparticle
Hao Wang, Huanjun Chen
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Sun Yat-sen University (China)
We investigated theoretically and experimentally the resonance coupling between the magnetic dipole resonances of silicon nanospheres and molecular excitons. By coating the silicon nanosphere with a dye molecule
layer, we demonstrated that hybrid states were induced around the magnetic dipole resonance mode due to
magnetic field mediated Fano-type energy transfer. We further observed a Rabi splitting of 100 meV by spin
coating the silicon nanospheres with J-aggregates (TDBC).
P39: Broadband absorption enhancement in ZnTe nanowire intermediate solar cells with plasmonic
bowtie antennas
Kuiying Nie, Fangfang Ren, Jing Li, Jiandong Ye, Kun Tang, Shulin Gu, Rong Zhang, Youdou Zheng
Nanjing University (China)
A plasmonic bowtie antenna design is investigated numerically to enhance a broad spectral absorption of
zinc telluride (ZnTe)/zinc oxide (ZnO) core/shell single nanowire intermediate solar cells. Compared to a
single-bowtie antenna, triple-bowtie antennas demonstrate much higher absorption enhancement in multiple
spectra regimes, especially in 680nm, which is corresponding to the intermediate level of ZnTe:O materials.
It provides a promising approach to improve the poor absorption of low-energy photons and improve the
conversion efficiency of single nanowire solar cells.
P40: Two Equivalent Circuit Models for Double Concentric Squares Artificial Magnetic Conductor
Mohamad Mantash, Anne-Claude Tarot
University of Rennes 1 (France)
Two equivalent circuit models to estimate the resonant frequency and reflection coefficient phase of double
concentric square Artificial Magnetic Conductor (AMC) are proposed. The AMC is composed of an array of
square surrounded by a loop printed on grounded dielectric substrate without vias. This approach is based on
the Transmission Line Model for waves normally incident on the structure. The proposed models are validated
via a comparison between measurements and simulations results for different samples and a parametric
study.
P41: Plasmonic Analogue of Electromagnetically Induced Transparency in Side Coupled cavities to a
MIM Waveguide
Adnane Noual1 , Ossama El Abouti1 , El Houssaine El Boudouti1 , Abdellatif Akjouj2 , Yan Pennec2 , Bahram Djafari-Rouhani2
1
Universite Mohamed Premier (Morocco), 2 Universite de Lille 1 (France)
We investigate numerically the classical analogue of electromagnetically induced transparency in a plasmonic
structure constituted by two side-coupled cavities. Two configurations are considered: i) cavities connected
symmetrically on each side of the waveguide, ii) cavities situated on the same side. In the first case the EIT
resonance occurs as a consequence of the destructive interference between the two cavities, whereas in the
second situation the phenomenon arises due to coupling between dark and radiative resonators.
P42: Complete Picture of Dispersion Relation for Surface Plasmon Polaritons in Layered Media
H. S. Tetikol, M. I. Aksun
Koc University (Turkey)
We show that both the wavevector and the frequency of surface plasmon polaritons(SPPs) can simultaneously
assume complex values, providing better resolution and confinement than previously thought. As an example,
we analyze SPPs in layered media and ascertain the true nature of their dispersion. We prove that a dispersion
curve constitutes only a subset of the solutions to the dispersion equation, and the entire solution set can be
represented as a surface in the complex frequency-wavevector domain.
P43: Blackbody Metamaterial Composite film of Nanoparticle and Polymer
Kotaro Kajikawa, Hisashi Karube
Tokyo Institute of Technology (Japan)
We studied blackbody metamaterial composite-films of metallic nanoparticles and polymer. Reflectance,
transmittance and absorption of the film are calculated on the basis of the Mie theory and Clausius Mossottii relation. We also fabricated the composite metamaterials in which gold nanoparticles are dispersed in a
polyvinylpyrrolidone film. The experimental results are almost in agreement with the calculated spectra.
P44: Tungsten disulfide nanotubes decorated with gold nanoparticles as electrochemical electrodes
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with improved response
Filip Ligmajer1 , Lukas Kejik1 , Ales Danhel2 , Miroslav Kolibal1 , Miroslav Fojta2 , Tomas Sikola1
1
Brno University of Technology (Czech Republic), 2 Academy of Sciences of the Czech Republic (Czech
Republic)
Combination of plasmonic and electrochemical pathways in both analytical and technological applications
could provide many advantages arising from the interplay between electrons and photons. Here, we demonstrate how properties of transparent electrochemical electrodes improve with increasing coverage of tungsten
disulfide nanotubes and how decoration of these nanotubes with plasmonic nanoparticles influences the
main parameters of resulting electrodes. Our results are relevant to plasmon-enhanced electrochemistry of
transition-metal dichalcogenides and also to other systems where light interacts with chemical currents.
P45: Numerical simulations of signal acquisition in aperture SNOM
Martin Hrton, Petr Dvorak, Tomas Samoril, Filip Ligmajer, Tomas Sikola
Brno University of Technology (Czech Republic)
Using FDTD simulations combined with analytical calculations, the signal acquisition process in aperture
SNOM has been studied. The emphasis was placed on the role of individual electric field components in
the image formation. The results show that although the transmission through the aperture can be tuned to
selectively favor one of these components, the resulting sensitivity is eventually determined by the efficiency
of their coupling to the loss-less guided modes of the tip.
P46: Spectroscopic measurements of near-field interference patterns by a-SNOM
Zoltan Edes, Petr Dvorak, Michal Kvapil, Tomas Samoril, Filip Ligmajer, Martin Hrton, Vlastimil Krapek,
Radek Kalousek, Petr Dub, Peter Varga, Tomas Sikola
Brno University of Technology (Czech Republic)
Scanning near-field optical microscopy (SNOM) in combination with interference structures is a powerful tool
for imaging and analysis of surface plasmon polaritons (SPPs). In this article we address how the wavelength
and polarization state of illumination influence SPPs interference patterns measured by aperture-SNOM.
Using the SNOM setup equipped with a supercontinuum laser and utilizing numerical simulations, we identified the role of individual near-field components in formation of SNOM images.
P47: Frequency comb generation in a time-dependent graphene ribbon lattice
Galaad Altares Menendez, Bjorn Maes
University of Mons (Belgium)
Recently, frequency comb generation using modulated planar graphene sheets was introduced. Here we
show that this process is more efficient in a graphene ribbon lattice than in a planar structure. To do so we
exploit the plasmonic resonances of the lattice, which are very sensitive to the graphene doping level. By dynamically changing this doping the transmission becomes time-dependent and allows for effective frequency
comb generation in the infrared range.
P48: Novel Hybrid Silicon Plasmonic Modulator
Elsayed Sherif 1 , Lamees Shahada1 , Aya Zaki2 , Mohamed Swillam2
1
Qatar University (Qatar), 2 The American University in Cairo (Egypt)
In order to match the increasingly demands of telecommunication technology, fast, compact optical modulators are needed. Thereby, we propose a hybrid silicon plasmonic modulator based on the ring resonator
configuration. The modulator is operational at the telecom wavelength, and its compact design allows it to be
used for integrated photonics purposes.
P49: Long Range Plasmonic Waveguide Using Doped Silicon in Mid-Infrared
Raghi El Shamy, Hany Mossad, Mohamed Swillam
The American University in Cairo (Egypt)
The modal analysis of CMOS compatible hybrid plasmonic waveguide in the mid-infrared region (4-6um) using
doped silicon is introduced. Manipulating the design parameters of the waveguide such as the thickness of
the doped silicon layer and the nearby sapphire layers can effectively change the propagation length and
the mode confinement. The simulation results show that a propagation length of 220um can be achieved at
wavelength 6mm.
P50: Hybrid silicon organic directional coupler based modulator
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Mohamed Youssef Abdelatty, Aya Zaki, Mohamed Swillam
The American University in Cairo (Egypt)
An optical directional coupler (ODC) based on silicon-on-insulator waveguide is designed and demonstrated,
with a power-splitting mechanism that can be tuned with applying the external electric field. The tuning mechanism takes the advantage of changing the refractive index of polymer when applying external electric field.
The ODC operates under 1550 nm telecommunication wavelength. A finite difference time domain method
with perfect matching layer (PML) absorbing boundary condition is taken up to simulate and analyze the ODC.
P51: Incorporation of graphene as the hole transfer layer for quantum dot light emitting diode
Jing Chen, Jiangyong Pan, Yuning Zhang, Qianqian Huang, Wei Lei
Southeast University (China)
We report a color-saturated, red quantum dot light-emitting diode (QLED) using graphene oxide doped PEDOT: PSS as the hole injection layer (HTL) to optimize the band offset between the HTL and emitting layers.
The QLEDs show a maximum luminance of up to 4200 cd/m2, corresponding to 7.5 lm/W in power efficiency
and turn on voltage of 1.6 V.
P52: Synthesis of ZnO Nanoparticles and their Application in Quantum Dot Light Emitting Diodes
Jiangyong Pan, Jing Chen, Qianqian Huang, Wei Lei
Southeast University (China)
In this paper, the ZnO nanoparticles (NPs) has been synthesized by sol-gel method and used as electron
transport layer (ETL) in quantum dot light emitting diode (QLED). The effect of solvent types and film thickness
of ZnO NPs on QLED performance has been studied. It has been found that the best solvent and thickness
of ZnO NPs is butanol and 35 nm respectively.
11:00 - 12:45 — Malaga
Session 1A2
SP1. Active, Nonlinear and Reconfigurable Plasmonics and Metamaterials
Organized by: Christos Argyropoulos and Pai-Yen Chen
Chaired by: Christos Argyropoulos and Pai-Yen Chen
11:00 : Keynote talk
Nanophotonics with Plasmonic Ceramics
Nathaniel Kinsey1 , Clayton DeVault1 , Marcello Ferrera2 , Urcan Guler3 , Amr Shaltout1 , Aveek Dutta1 ,
Soham Saha1 , Alexandra Boltasseva1 , Vladimir Shalaev1
1
Purdue University (USA), 2 Heriot-Watt University (United Kingdom), 3 Nano Meta Technologies (USA)
Alternative plasmonic materials are taking nanophotonics to new heights, enabling numerous applications
across integrated optics, metasurfaces, dynamic systems, high temperature devices, and much more. Here
we describe the roles that transition metal nitrides and the transparent conducting oxides play in developing
practical nanophotonic systems for real-life applications such as thermal photovoltaics, waveguiding, and data
manipulation.
11:30 : Invited talk
Reconfigurable THz metamaterials based on nematic liquid crystals
Dimitrios C. Zografopoulos1 , Goran Isic2 , Borislav Vasic2 , Rados Gajic2 , Romeo Beccherelli1
1
Consiglio Nazionale delle Ricerche (Italy), 2 University of Belgrade (Serbia)
Novel liquid-crystal tunable metamaterial devices for terahertz wave manipulation are designed and investigated. Deeply subwavelength layers of nematic materials are introduced in metal-insulator-metal cavities,
leading to strong interaction of the THz wave with the liquid crystal anisotropy. The enhanced response in the
liquid-crystal layer yields extensive tunability of the electromagnetic resonances with fast response times in
the millisecond range. Three specific components are targeted: a fishnet metamaterial with tunable effective
refractive index, a tunable absorber, and a polarization controller.
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11:50 : Invited talk
Quantum Hydrodynamic Theory of Second-Harmonic Generation
Cristian Ciraci
Istituto Italiano di Tecnologia (IIT) (Italy)
We introduce a method based on the quantum hydrodynamic theory or the study of second-harmonic generation, which includes nonlocal and nonlinear contributions of the kinetic energy and a quantum-like description of the electron density at the surface. This method is suitable for studying nonlinear optical process in
nanometer-gap plasmonic structures.
12:10 : Invited talk
Anomalous spectral shifts in plasmonic nano-cavities
Angela Demetriadou1 , Anna Lombardi2 , Jan Mertens2 , Ortwin Hess1 , Jeremy J. Baumberg2 , Javier
Aizpurua3
1
Imperial College London (United Kingdom), 2 University of Cambridge (United Kingdom), 3 Centro de Fisica
de Materiales (Spain)
Nanoplasmonics have the ability to confine light in extremely small nano-cavities. We show using a theoretical
model, numerical calculations and measurements that for these tightly-coupled nanoplasmonic structures,
the correlation between the field enhancement (near-field) resonance and the radiative (far-field) resonance
breaks down. This dissociation is determined by the nanocavity’s geometry. The anomalous behaviour of
plasmonic nanocavities is of significant importance for active and quantum plasmonics, where extreme nanocavities are essential to observe strong coupling.
12:30 : Antenna enhanced third order nonlinear response of an epsilon-near-zero medium
Mohammad Z. Alam, S. Schulz, J. Upham, I. De Leon, R. W. Boyd
University of Ottawa (Canada)
We demonstrate experimentally that the linear optical response of a plasmonic dipole antenna array is significantly modified when placed on a thin epsilon-near-zero (ENZ) material. Moreover, the strong interaction
between the dipole antenna array and the ENZ material results in a broadband (>500 nm) nonlinear metamaterial with n-2 values up to eight orders of magnitude larger than that of silica glass.
11:00 - 12:50 — Ronda
Session 1A3
SP25. Topological photonics
Organized by: Jorge Bravo-Abad
Chaired by: Jorge Bravo-Abad
11:00 : Invited talk
Reconfigurable and all-dielectric photonic topological insulators in two and three dimensions
Alexander Khanikaev
City University of New York (USA)
It is shown that symmetry protected topological phases can be engineered in the presence of the electromagnetic duality, which can be achieved by careful meta-atoms design. Synthetic gauge fields induced by
magneto-electric coupling give rise to spin-polarized edge states with linear and conical Dirac dispersion in
2D and surface states in 3D systems, respectively. The ability to control and reconfigure gauge fields in these
platforms enables reflectionless routing of electromagnetic states along arbitrarily shaped pathways.
11:20 : Invited talk
Pseudospin-mediated phenomena in photonic graphene
Zhigang Chen
San Francisco State University (USA)
We report on pseudospin-mediated phenomena in photonic graphene, including topological charge flipping
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due to selective excitation associated with sublattice and valley degrees of freedom, as well as AharonovBohm-like interferences due to deformation of honeycomb lattices.
11:40 : Keynote talk
Topologically Non-Trivial States in Photonic Crystals
Marin Soljacic
MIT (USA)
Topologically non-trivial photonic states will be surveyed. Our recent progress on Chiral Edge States, Weyl
points, and Bound States in Continuum will be presented. Their properties and potential applications will be
discussed.
12:10 : Invited talk
Anomalous Topological Phases and Unpaired Dirac Cones in Photonic Lattices
Yidong Chong1 , Daniel Leykam1 , Mikael C. Rechtsman2
1
Nanyang Technological University (Singapore), 2 The Pennsylvania State University (USA)
This talk describes a class of photonic Floquet topological insulators based on staggered helical lattices,
which exhibits anomalous Floquet topological insulator phases and an easily controllable topological transition
between trivial and nontrivial phases. At the critical point of the topological transition, the bandstructure features a single unpaired Dirac cone, which yields a variety of unusual transport effects never previously observed,
including weak antilocalization not limited by short-range disorder. Possible applications for controlling and
switching topological photonic states are discussed.
12:30 : Invited talk
Topological Properties of Quasicrystals: A Scattering Analysis
Eli Eliyahu Levy1 , Assaf Barak2 , Amnon Fisher1 , Eric Akkermans1
1
Technion (Israel), 2 Rafael Ltd (Israel)
We present a study of topological properties of dielectric Fibonacci quasicrystals. Chern numbers which label
the dense set of spectral gaps correspond to an underlying palindromic symmetry. These spectral topological
features are related to the two independent phases of the scattering matrix. Conveniently designed gap
modes allow to directly measure these Chern numbers via spectroscopy. Existing experimental realizations
will be addressed, and results will be shown which extend beyond the dielectric Fibonacci sequence.
11:00 - 12:40 — Nerja
Session 1A4
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
11:00 : Invited talk
3D DNA Plasmonics
Maximilian Julius Urban, Na Liu
Max Planck Institute for Intelligent Systems (Germany)
Deterministic placement and dynamic manipulation of individual plasmonic nanoparticles with nanoscale precision feature an important step towards active nanoplasmonic devices with prescribed levels of performance
and functionalities at optical frequencies. We demonstrate the precise organization and the controlled motion
of nanoparticles by using the toolbox of DNA nanotechnology.
11:20 : Invited talk
Assembling Plasmonic Nanoantennas on DNA
Sebastien Bidault
ESPCI Paris (France)
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Plasmon-based optical antennas have become ubiquitous in photonics with numerous biomedical applications in sensing, imaging and spectroscopy. Their sub-wavelength size means that their structural properties
must be controlled at the nanometer scale to successfully engineer their optical responses. DNA has recently
emerged as the building material of choice to mass-produce plasmonic resonators with controlled geometries
and chemical environments, allowing their reproducible coupling to single quantum emitters and the dynamic
modulation of their photonic properties.
11:40 : Invited talk
Nanoscale surface chemistry directs the tunable assembly of silver octahedra into three two-dimensional
plasmonic superlattices
Yih Hong Lee1 , Wenxiong Shi1 , Ruibin Jiang2 , Jianfang Wang2 , Shuzhou Li1 , Xing Yi Ling1
1
Nanyang Technology University (Singapore), 2 The Chinese University of Hong Kong (Hong Kong)
A major challenge in nanoparticle self-assembly is programming the large-area organization of a single type of
anisotropic nanoparticle into distinct superlattices with tunable packing efficiencies. Here we utilize nanoscale
surface chemistry to direct the self-assembly of silver octahedra into three distinct two-dimensional plasmonic
superlattices at a liquid/liquid interface.
12:00 : Invited talk
Electrochemical control of plasmonic nanomaterial surface chemistry
Christy Landes
Rice University (USA)
Novel chemical and physical processes occur at nanoparticle surfaces, both aided and reported by the broad
tunability of their plasmonic properties. Electrochemical tuning is one way to control both plasmon resonance
shifts and underlying morphology, composition, and surface chemistry. We report electrochemical redox tuning of metallic nanoparticles. Weelectrodeposit silver and/or its salts on the surface of gold nanostructures
and selectively grow silver metal on the surface of these structures. We demonstrate reversible spectroelectrochemical tuning of single nanoparticles and dimers.
12:20 : Invited talk
Colloidal Plasmonic Metasurfaces for Nonlinear Optics
Shangjr Gwo1 , Chun-Yuan Wang1 , Hung-Ying Chen1 , Liuyang Sun2 , Xiaoqin Li2 , Wei-Liang Chen3 , YuMing Chang3 , Hyeyoung Ahn4
1
National Tsing-Hua University (Taiwan), 2 The University of Texas (USA), 3 National Taiwan University (Taiwan), 4 National Synchrotron Radiation Research Center (Taiwan)
Nonlinear plasmonic applications are susceptible to material losses and structural imperfections, such as
variations in size, shape, periodicity of meta-atoms, and their material states. We show that silver crystals
synthesized by a green chemical process are excellent materials for fabrication of plasmonic metasurfaces.
Utilizing ion-beam milling, we are able to generate uniform and precisely engineered metasurfaces for broadband tunable second-harmonic generation.
11:00 - 11:40 — Antequera
Session 1A5
SP24. Nanophotonics and plasmonics for information applications
Organized by: Haitao Liu
Chaired by: Haitao Liu
11:00 : Invited talk
Efficient spectral and spatial manipulation of optical field hot spots via plasmonic mode hybridization
in hierarchical nanostructures
Benfeng Bai1 , Zhendong Zhu2
1
Tsinghua University (China), 2 National Institute of Metrology (China)
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Utilizing plasmonic mode hybridization and cascaded field enhancement, we present the construction of novel
plasmonic hierarchical nanostructures that can generate extremely enhanced and tightly confined optical field
hot spots at target resonance wavelengths and accurate spatial positions. Two plasmonic hierarchical nanostructures, including an M-shaped nanograting and a nanoparticle-in-cavity nanoantenna array, are designed
and fabricated. The greatly enhanced light-matter interaction and potential application of these devices are
demonstrated by surface enhanced Raman spectroscopic experiments.
11:20 : Invited talk
3D optical nanofabrication in glass
Yang Liao, Jielei Ni, Ya Cheng
Chinese Academy of Sciences (China)
Femtosecond laser has been widely used for fabricating various types of 3D functional structures on the micrometer scale. Here, we demonstrate fabrication of 3D nanostructures in a controllable manner by exciting
self-induced plasmonic waves with far-field interaction of an ultrafast laser beam with glass. We reveal the mechanism by observing the gradual formation of the nanostructure under the irradiation of multiple femtosecond
laser pulses.
11:00 - 12:40 — Fuengirola
Session 1A6
SP15. Non-linear and ultra-fast spectroscopy of nano- and meta-materials
Organized by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
Chaired by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
11:00 : Invited talk
Ultrafast Hot Plasmonic Electrons in Nanostructures with Hot Spots
Alexander O. Govorov1 , Lucas V. Besteiro1 , Larousse Khorashad1 , Gary P. Wiederrecht2
1
Ohio University (USA), 2 Argonne Labs (USA)
The efficiency of generation of energetic plasmonic carriers in metal nanostructures strongly depends on the
optical design and material composition. In this study, we demonstrate the ability to generate large numbers
of hot plasmonic carriers in specially-designed hybrid nanostructures with hot spots. Overall, nanostructures
with small sizes or with hot spots can create unusually large numbers of energetic electrons that can be
observed using ultra-fast spectroscopy or in photo-chemical experiments.
11:20 : Invited talk
Nonlinear plasmonics: confinement effect, delocalization and ultrafast responses
Sviatlana Viarbitskaya1 , Olivier Demichel1 , Upkar Kumar2 , Regis Mejard1 , Aurelien Cuche2 , Gerard
Colas des Francs1 , Christian Girard2 , Benoit Cluzel1 , Erik Dujardin2 , Alexandre Bouhelier1
1
Universite Bourgogne Franche-Comte (France), 2 Universite Federale de Toulouse (France)
In this presentation we address a series of fundamental issues that are emerging with the fast growing field
of nonlinear plasmonics. Specifically, we will discuss the field sensitivities of high order nonlinearities and
address the ultrafast dynamics of photo-generated hot carriers. We will show that the nonlinearities are not
restricted to the excitation spot but may be distributed through the plasmonic landscape. We will discuss
possible applications and electrical control of the nonlinear mechanisms.
11:40 : Invited talk
Impact of analyte molecule distribution on the SERS efficiency of nanoplasmonic assemblies: a fullwave simulation study
Diego M. Solis1 , Jose M. Taboada2 , Fernando Obelleiro1 , Luis M. Liz-Marzan3 , Francisco J Garcia de
Abajo4
1
University of Vigo (Spain), 2 University of Extremadura (Spain), 3 CIC biomaGUNE (Spain), 4 ICFO-The Institute of Photonic Sciences (Spain)
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The SERS (surface-enhanced Raman spectroscopy) performance of plasmonic colloidal depositions is to a
great extent determined by the distribution of the analyte molecules that attach to the nanoparticles’ surface.
We herein investigate this effect by considering a high-density monolayer of gold nanospheres (GNP’s) and
compare the SERS enhancement yielded by two different models of analyte distribution through full-wave
numerical simulations. These are done with the aid of an accelerated surface integral equation method,
extremely powerful for large-scale electromagnetic problems.
12:00 : Invited talk
Observation of plasmon wave packet motions with ultrafast near-field microscopy
Hiromi Okamoto1 , Yoshio Nishiyama2 , Kohei Imura3
1
The Graduate University for Advanced Studies (Japan), 2 Institute for Molecular Science (Japan), 3 Waseda
University (Japan)
An aperture-type scanning near-field optical microscope was combined with ultrafast measurement system
and achieved delivery of 15-fs optical pulses at the probe tip, which enables direct space-time domain observation of plasmon dynamics in gold nanostructures. With this apparatus, we studied plasmon wave packet
dynamics in gold nanorods. On coherent multi-mode excitation with the ultrashort pulses, we found characteristic time-dependent features of near-field pump-probe images, which reflected wave packet propagation in
the nanorod.
12:20 : Invited talk
Optical Control of Electron Tunneling in Plasmonic Nanoantennas via Single-Cycle Pulses
Daniele Brida, Tobias Rybka, Alfred Leitenstorfer
University of Konstanz (Germany)
We exploit the electric field of near-infrared 1.4-cycle pulses with picojoule-level energy to drive tunneling of
electrons across the 8 nm gap of a gold nanoantenna circuit at 80 MHz repetition rate. The control of the
carrier-envelope phase of the pulses allows us to manipulate ultrafast single-electron currents in direction
and amplitude at room temperature.
11:00 - 12:40 — Estepona
Session 1A7
SP7. Current Advances in Electromagnetics of Metal and HRI dielectric
nanostructures
Organized by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
Chaired by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
11:00 : Invited talk
Tunable Negative Nano Composites for Low Frequency Metamaterials
Carlos Pecharroman, Lucia Fernandez, Miguel Morales, Celia Mallada, Jose Luis Menendez
CSIC (Spain)
Negative and zero permittivity nanostructure composites have been obtained on a broad frequency domain.
Additionally, it has been found that the effective dielectric constant can be modified by the application of a
magnetic field. At low frequencies, these materials present a close resemblance to plasmonics. Additionally,
effective dielectric losses can be suppressed by the introduction of some passive electric elements. In this
regard, this kind of devices can be used in applications such as new electric passive elements.
11:20 : Invited talk
Optical spectroscopy of individual nano-objects in correlation with electron microscopy imaging:
plasmon interferences in strongly coupled systems
Emmanuel Cottancin
University Lyon 1 (France)
The LSPR and the morphology of individual metallic dimers have been investigated. In cubic dimers, the
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gap morphology is of crucial importance for very short interparticle distances. Besides the redshift of the
resonance with decreasing interparticle distance, we observed a clear anti-resonance dip in the main dipolar
LSPR which can be viewed as a Fano resonance due to the coupling between the broad dipolar resonance
of the dimer with gap plasmon modes confined in the interparticle zone.
11:40 : Invited talk
Studying Individual Nanostructures using Light Tailored at the Nanoscale
Peter Banzer, Gerd Leuchs
Max Planck Institute for the Science of Light (Germany)
We review recent work aimed at the utilization of complex electromagnetic field landscapes as versatile tools
for the experimental study of the optical properties of individual dielectric and metallic nanostructures.
12:00 : Invited talk
Metallo-dielectric sensor: toward zeptogram-scale colorimetric sensing
Julien Proust, Jerome Martin, Davy Gerard, Jean-Louis Bijeon, Jerome Plain
Universite de Technologie de Troyes (France)
We report on the fabrication of plasmonic hybrid sensors made of a micro-axicon dielectric lens and a single
metallic nanoparticle. The Bessel-like beam generated through the axicon-lens can be used to optimize efficiently the excitation of a plasmonic nano-object and the collection of its far-field. This hybrid structure using
the optical properties of a single metallic nanoparticle can act as a highly sensitive nanosensor.
12:20 : Invited talk
Discontinuous Galerkin Methods in Nano-Photonics
Kurt Busch
Humboldt University (Germany)
An overview of the recent progress in applying the Discontinuous Galerkin Finite-Element Time-Domain approach to nano-plasmonic systems including the development of advanced material models is provided.
11:00 - 12:20 — Benalmadena
Session 1A8
SP3. PT-symmetry in photonics, metamaterials and plasmonic systems
Organized by: Anatole Lupu and Henri Benisty
Chaired by: Anatole Lupu and Henri Benisty
11:00 : Invited talk
Graphene-based PT-symmetric structures
Yuliy Bludov
Universidade do Minho (Portugal)
The PT-symmetric graphene-based linear and nonlinear periodic structures are considered theoretically. We
show, that possibility of variation of graphene’s conductivity by electrostatic gating allows to make the parameters of such structures (like exceptional point positions, reflectivity, spectrum, etc.) to be dynamically
tunable.
11:20 : Invited talk
Field concentration by local PT-symmetry and global P-symmetry
Waqas Wasseem Ahmed1 , Muriel Botey1 , Ramon Herrero1 , Kestutis Staliunas2
1
Polytechnic University of Catalonia (Spain), 2 Catalan Institution for Research and Advanced Studies (Spain)
We propose a new class of systems holding PT-symmetry only locally, whereas on a global scale the system
is only Parity symmetric and explore suchnew potentials in one- and two- dimensional complex nanophotonic
structures. Such systems lead to a strong field localization at the P-symmetry center, arising from the merge
of the two different symmetries.
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11:40 : Invited talk
Parity-Time Symmetry in Organic Thin Films and Waveguides
Noel C. Giebink
The Pennsylvania State University (USA)
We demonstrate organic thin films and waveguides that exhibit passive parity-time (PT) symmetry by modulating their refractive index in the form of a complex exponential function. The resulting films and waveguides
exhibit strong asymmetry in their reflectivity that maximizes when the real and imaginary components of the
index modulation are balanced, marking an exceptional point transition to the broken PT phase. Progress
toward active PT symmetry incorporating laser dyes to achieve balanced gain and loss will be discussed.
12:00 : Invited talk
Conserved Quantities and Phase Locking in PT-symmetric Lattices
A. K. Harter, F. A. Onanga, Yogesh N. Joglekar
Indiana University Purdue University Indianapolis (USA)
Non-Hermitian Hamiltonians that are invariant under combined operations of parity and time-reversal (PT)
faithfully described propagation of light in the presence of balanced gain and loss. Due to the non-unitary
nature of such time evolution, the net intensity of light in such a system is not constant with time. Motivated
by the early attempts to develop a unitary theory for such Hamiltonians, we present conserved quantities in
PT-symmetric systems that are determined by the wave-function or electric field amplitudes and phases.
11:00 - 12:40 — Mijas
Session 1A9
SP14. Nano and Mesoscopic Optics in Colloidal and Granular Systems
Organized by: Aristide Dogariu and Juan J. Saenz
Chaired by: Aristide Dogariu and Juan J. Saenz
11:00 : Invited talk
Intensity fluctuations of light emitted by two classical or quantum sources in a structured environment
Remi Carminati1 , Juan Jose Saenz2 , Antoine Canaguier-Durand3
1
ESPCI ParisTech (France), 2 Donostia International Physics Center (Spain), 3 UPMC (France)
We analyse theoretically intensity fluctuations of light emitted by two independent single-photon sources in an
arbitrary environment. The theory shows that the interdistance between the sources is encoded in intensity
fluctuations, and provides design rules for the control of the degree of quantum coherence of the emitted light.
In particular, we derive generalized conditions to generate superradiant and subradiant states of the emitters.
These results should find applications in quantum nanophotonics, and in sensing in complex media.
11:20 : Invited talk
Light Emission Statistics as a Local Probe for Structural Phase Switching
Nuno de Sousa1 , Juan Jose Saenz2 , Frank Scheffold3 , Antonio Garcia-Martin4 , Luis Froufe-Perez3
1
Autonomous University of Madrid (Spain), 2 Donostia International Physics Center (Spain), 3 University of
Fribourg (Switzerland), 4 Instituto de Microelectronica de Madrid - CSIC (Spain)
In this work we show that the statistics of emission rates in correlated disordered media is extremely sensitive
to the details of the radial distribution function around the emitter. We analyze the emission statistics for single
emitter embedded in a finite cluster of resonant particles during a solid-liquid phase transition. At melting
temperature, the system total scattering cross section does not present significant differences between the
two phases while the emission rate jumps following the system dynamics.
11:40 : Invited talk
Transport and emission in in colloidal and granular systems
Cefe Lopez
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Consejo Superior de Investigaciones Cientificas CSIC (Spain)
Self-assembling monodisperse colloidal particles has served to random lasers resonant but the scattering
properties of the passive part of the systems were hard to account for. Further complication is brought about
if, in addition, disorder is manipulated introducing correlations. When polydisperse granular systems are used
instead it is possible to separate the gain and feedback functions by physically separating the responsible
materials.
12:00 : Invited talk
Chiral Light-Matter Interaction
Peter Lodhal
Niels Bohr Institute (Denmark)
We review the physics of waveguide QED, notably recent progress on photonic-crystal waveguides containing
single quantum emitters. It is found that chiral light-matter interaction can be engineered leading to new
opportunities in quantum optics with applications for photonic quantum-information processing.
12:20 : Invited talk
Coherent spatiotemporal control of a femtosecond pulse through an opaque medium
Mickael Mounaix1 , Daria Andreoli1 , Hugo Defienne1 , Giorgio Volpe1 , Ori Katz2 , Samuel Gresillon3 ,
Sylvain Gigan1
1
UPMC (France), 2 Hebrew University of Jerusalem (Israel), 3 ESPCI ParisTech (France)
We report broadband characterization of the propagation of light through a multiply scattering medium by
means of its Multi-Spectral Transmission Matrix. Using a spatial light modulator, we demonstrate full control
of both spatial and spectral properties of an ultrashort pulse transmitted through the medium. We show
spatiotemporal focusing of the pulse at any arbitrary position and time with any desired temporal shape.
11:00 - 12:40 — Alhaurin
Session 1A10
SP27. Magnetic Surface Polaritons: interactions between the magnetic,
plasmonic, acoustic surface waves
Organized by: Raa’nan Tobey and Vasily Temnov
Chaired by: Raa’nan Tobey and Vasily Temnov
11:00 : Invited talk
Propagating magnons with sub-100 nm wavelength excited by microwaves in nanostructured metal/insulator thin-film magnets
H. Yu1 , O. d’Allivy Kelly2 , V. Cros2 , R. Bernard2 , P. Bortolotti2 , A. Anane2 , F. Brandl1 , F. Heimbach1 , Dirk
Grundler3
1
Technische Universitat Munchen (Germany), 2 Universite Paris Sud (France), 3 Ecole Polytechnique Federale
de Lausanne (Switzerland)
Magnetic nanodevices will allow for the creation of smart GHz-to-THz devices operated at low power consumption if spin waves (magnons) are generated and manipulated on the sub-100 nm scale. We report how
magnons with a wavelength of 88 nm are created by conventional microwave antenna in that we combine
insulating yttrium iron garnet and specifically tailored metallic nanomagnets.
11:20 : Invited talk
Curvilinear magnetism
Denys Makarov
Helmholtz-Zentrum Dresden-Rossendorf e.V. (Germany)
Extending planar two-dimensional structures into the three-dimensional space has become a general trend in
electronics, photonics, plasmonics and magnetics. In magnetism, a consequence of the curvilinear geometry
is the appearance of novel curvature-driven effects including magnetochiral effects and topologically induced
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magnetization patterning, resulting in theoretically predicted unlimited domain wall velocities, chirality symmetry breaking and Cherenkov-like effects for magnons. These theoretical predictions and the application
potential of 3D-shaped magnetic objects will be presented in this talk.
11:40 : Invited talk
Localized Surface Plasmons and Magnetooptical Activity Enhancement
Gaspar Armelles
CNM-CSIC (Spain)
Active plasmonic systems have exceptional potential in a wide range of applicabilities. Recently, endorsing
this active character by incorporating magnetic functionality has received a great deal of attention. Combining
plasmon resonances and magnetooptical activity allows enhancing the Magneto Optical (MO) response by
electromagnetic field localization of the plasmon resonance in the MO active element,. In this talk we will
review the different approaches that have been followed to increase the MO activity by electromagnetic field
enhancement.
12:00 : Invited talk
Tunable plasmonic heterostructures: magnetic and optical-pump ultrafast control
Vladimir Belotelov
Lomonosov Moscow State University (Russia)
One should find different ways to control wavenumber, phase and polarization of surface plasmons. At this
point, ’active plasmonics’ comes to play. There are different methods and approaches of active plasmonics. In
this talk, we shall discuss how to influence on the surface plasmons by means of direct and inverse magnetooptical effects, photoexcitation of electrons in a metal, gain media, optical phonons, and acoustic waves.
12:20 : Invited talk
Nonlinear surface photonics in hybrid magnetic structures
Ilya Razdolski1 , Denys Makarov2 , Alexander Paarmann1 , Martin Wolf1 , Vasily Temnov3
1
Fritz Haber Institute (Germany), 2 Helmholtz-Zentrum Dresden-Rossendorf e.V. (Germany), 3 Universite du
Maine (France)
Nonlinear magneto-plasmonics offers a considerable expansion of control over the magneto-optical response
of a system supporting surface polaritons. Here we demonstrate enhanced magneto-optical modulation of
the second harmonic generation output from hybrid plasmonic structures and comparatively analyze the
advantages of nonlinear surface polaritonsexcitation. Further, we discuss possible application of this concept
to metal-free polar dielectrics where low-losses surface phonon polaritons can be excited in the Reststrahlen
band in the THz spectral range.
11:00 - 12:40 — Coin
Session 1A11
SP18. A bottom-up approach towards metamaterials and plasmonics
Organized by: Dorota Pawlak and Wounjhang (Won) Park
Chaired by: Wounjhang (Won) Park and Virginie Ponsinet
11:00 : Invited talk
Assembling plasmonic nanoparticles through supramolecules
Andres Guerrero-Martinez
Universidad Complutense de Madrid (Spain)
The gold nanoparticle supramolecular self-assembly strategy under controlled temperature and concentration
conditions proposed in this work, shows a battery of chemical approaches to prepare new defined plasmonic superstructures in both aqueous and organic media, and their interfaces, with potential applications in
plasmonic nanoparticle sensing.
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11:20 : Invited talk
Self-collapsed meta-structures of alumina and TiO2 nanowires for energy harvesting applications
Kyuyoung Bae, Gumin Kang, Yunha Ryu, Kyoungsik Kim
Yonsei University (Korea)
We present novel meta-structures via self-collapsed nanowires which can be readily fabricated by aggregation
due to the capillary force between the nanowires. We apply aluminum oxide and titanium dioxide nanowires
to characterize both dielectric and semi-conductor materials. The self-collapsed alumina nanowire arrays
exhibit high optical transmission haze to enhance the efficiency of optoelectronic devices. Ultra-broadband
absorption and high photocatalyst efficiency can be also achieved by plasmonic nanostructure with metal
coated nanowires for solar energy harvesting.
11:40 : Invited talk
Plasmon Enhanced Luminescence Upconversion in Self-Assembled Nanostructures
Dawei Lu, Chenchen Mao, Suehyun Cho, Won Park
University of Colorado (USA)
We present a comprehensive theoretical and experimental study on plasmon enhancement of energy transfer upconversion in rare earth activated upconversion nanoparticles (UCNPs). The UCNPs and plasmonic
nanostructures were coupled by electrostatic self-assembly. A detailed spectroscopic study together with a
theoretical study based on quantum electrodynamics revealed the mechanisms involved in the plasmon enhancement and quantitatively determine the contribution by each mechanism. This study provides a clear
pathway for advanced engineering of plasmon enhanced upconversion materials.
12:00 : Invited talk
Optical magnetism in a self-assembled 3D isotropic metamaterial
Sergio Gomez-Grana1 , Mona Treguer-Delapierre1 , Etienne Duguet1 , Vasyl Kravets2 , Alexander Grigorenko2 ,
Jacques Leng3 , Jean-Baptiste Salmon3 , Alexandre Baron3 , Daniel Torrent3 , Philippe Richetti3 , Philippe Barois3 , Virginie Ponsinet3
1
Universite de Bordeaux (France), 2 University of Manchester (United Kingdom), 3 Bordeaux University (France)
Magnetism at optical frequencies is one of the biggest challenges of the metamaterials research field. Artificial
magnetic response was obtained at visible frequencies in resonating nanostructures like fishnets or nanopillar arrays, which are essentially two-dimensional and highly anisotropic, therefore inducing the entanglement
of artificial magnetism and spatial dispersion. Combining nanochemistry, colloidal physics, numerical simulations and experimental optics, we demonstrate the fabrication of a large three-dimensional isotropic magnetic
metamaterial, exhibiting non-natural values of the magnetic permeability between 0.8 and 1.4.
12:20 : Invited talk
Optical Metamaterials based on p-block Elements for Switchable Nanophotonics
Johann Toudert, Alexander Cuadrado, Rosalia Serna
CSIC (Spain)
We explore the potential of p-block elements (especially Bi, Ga, Sb) for the fabrication of switchable plasmonic nanostructures and metamaterials, and demonstrate switchable plasmonic properties in nanostructured
metamaterials based on such elements.
11:00 - 12:25 — Blanca
Session 1A12
GEN3. Photonic crystals and cavities
Chaired by: Rui-Xin Wu
11:00 : Invited talk
Nanophotonic devices with integrated color centers in diamond and silicon carbide
David O. Bracher, Evelyn L. Hu
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Harvard University (USA)
Photonic crystal nanocavities have demonstrated extraordinary effectiveness in controlling and storing photons. Furthermore, coupling of cavities to embedded emitters has allowed augmented emission and extraction
efficiencies. New opportunities and challenges for cavity-emitter coupling have arisen with point-defect emitters in materials such as diamond and silicon carbide (SiC). This talk will focus on the particular challenges
in matching cavities to these emitters, as well as demonstrations of high quality cavities and cavity-emitter
coupling.
11:20 : Invited talk
Highly efficient high-speed thermal emitters based on quantum wells and photonic crystals
Takuya Inoue, Takashi Asano, Menaka D. Zoysa, Susumu Noda
Kyoto University (Japan)
We demonstrate the drastic improvement of power utilization efficiency and modulation speed of thermal
emitters, by utilizing intersubband transitions in multiple quantum wells and optical resonances in photonic
crystal slabs. We realize a high-Q (>100) thermal emission peak whose intensity at a given input power is
an order of magnitude higher than that of a reference blackbody emitter. We also demonstrate high-speed
( MHz) switching of thermal emission intensity, linewidth, and wavelength via electrical control of emissivity.
11:40 : Optimization of silicon slot waveguide micro-ring resonator cavities
Weiwei Zhang, Samuel Serna, Xavier Le Roux, Carlos Alonso-Ramos, Laurent Vivien, Eric Cassan
Universite Paris Sud (France)
We report our recent results on the development of optimized silicon vertical slot micro-resonators, demonstrating remarkably low propagation loss. We discuss on optical loss mechanisms in such resonators, with a
special focus on the coupler loss contribution that turns out to be the key obstacle to achieve high Q-factors.
We show ten-fold loaded Q-factor improvement, achieved by engineering the coupler region.
11:55 : 2D photonic crystal-based double switch-divider
Victor Dmitriev, Leno Martins
Federal University of Para (Brazil)
We propose and investigate a new multifunctional component. It consists of a T-junction of three waveguides
in 2D photonic crystal with square lattice. This component can fulfil three functions: switch OFF the two output
ports, switch ON any one of the two output ports. and 3 dB division of the input power. The changing of the
regime is achieved by DC magnetic field which magnetizes a cylindrical ferrite resonator.
12:10 : Magneto-optical nonreciprocity of the waveguide modes in one-dimensional magnetophotonic
crystals
Dariya Sylgacheva1 , Nikolai Evgen’evich Khokhlov1 , Andrey Kalish1 , Anatoliy Prokopov2 , Alexander
Shaposhnikov2 , Vladimir Berzhansky2 , Mohammad Nur-E-Alam3 , Mikhail Vasiliev3 , Kamal Alameh3 ,
Sarkis Dagesyan1 , Vladimir Belotelov1
1
M.V. Lomonosov Moscow State University (Russia), 2 V.I. Vernadsky Crimean Federal University (Russia),
3
Edith Cowan University (Australia)
We extend the theory of the waveguide modes’ dispersion for the case of photonic crystals containing transverse magnetized layers. Obtained solutions of the dispersion equation are in good agreement with the experimentally measured spectral displacements of transverse magneto-optical Kerr effect’s extrema.
11:00 - 12:30 — Sierra Nevada
Session 1A13
GEN1. Plasmonics and nanophotonics
Chaired by: Nikolai Khlebtsov
11:00 : Spin-controlled switching of near field excitation of optical nanoantennas
Yannick Lefier1 , U. Fischer2 , R. Salut1 , M. Suarez1 , T. Grosjean1
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1
Monday 25th July, 2016
Femto-ST Institute (France), 2 Interface physics (Germany)
We demonstrate a new concept based on optical spin-orbit coupling for selectively addressing resonant nanoantennas by nanoscale plasmonic waveguiding. Two nanoantennas are placed at both ends of a bent subwavelength gap-plasmon waveguide avoiding spoiling background effects in nano-antenna addressing. Our aim
is to reach new nano-optical functionalities in ultracompact optical devices such as remote (background free)
excitation of nano-antennas and directional addressing in nano-antenna networks, etc.
11:15 : Optically-controlled local plasmonic nanosoldering of silver nanowires
Qiang Li, Guoping Liu, Hangbo Yang, Wei Wang, Si Luo, Shuowei Dai, Min Qiu
Zhejiang University (China)
An optically-controlled local plasmonic nanosoldering technique is proposed and demonstrated. By exploiting
the strong photothermal effect in metal nanostructures, this soldering technique ensures the nanostructures
to be bonded while their original structural integrity is retained. Typical elemental devices (V-shaped and
T-shaped nanostructures) are formed with this nanosoldering technique. The conductivity of one V-shaped
junction is enhanced by 500 times after plasmonic nanosoldering. This facile nanosoldering technique is
expected to benefit the development of nanophotonics and nanoelectronics.
11:30 : Excitation of quantum dot by femtosecond plasmon-polariton pulse focused by conducting
cone
Pavel A. Golovinski1 , Valeri A. Astapenko2 , Egor S. Manuylovich2
1
Voronezh State Architecture and Engineering University (Russia), 2 Moscow Institute of Physics and Technology (Russia)
SPPs can be focused by metal waveguides of special geometry. The spatial distribution for near field strongly
depends on a linear chirp of the laser pulse which can partially compensate the wave dispersion. Field
distribution is calculated for different chirp values, opening angles and distances. The spatial selectivity of
excitation of quantum dots (QDs) using focused field is shown using Bloch equations.
11:45 : Optical Properties of Strained Metal Thin-Films
J. Kenji Clark, N. P. Kherani
University of Toronto (Canada)
Development of tunable materials for use in photonic, plasmonic, and metamaterial devices is extremely
important vis-a-vis their application to adaptive devices. Metal thin-films on flexible substrates represent a
potential material wherein the optical properties can be actively tuned using mechanical strain. The present
study reports on strain-induced variation of optical properties of metallic films on flexible substrates.
12:00 : Plasmonic hybridization investigated in non-local response regime
Simone Panaro, Stefania D’Agostino, Cristian Ciraci
Center for Biomolecular Nanotechnologies (Italy)
Plasmonic hybridization is an elegant way of describing the electromagnetic interaction of strongly coupled
plasmonic systems. The smaller is the distance between two particles the greater is the degree of hybridization of the system. Ultra-strong coupling then, can be achieved in sub-nanometer gap systems. In this context,
the nonlocal character of the free-electron response becomes critical. We investigate an elemental system,
highlighting the effects that non-locality introduces in a complex hybridization scheme.
12:15 : Metal-insulator-metal plasmonic sensor for high sensing sensitivity
Siham Refki1 , Shinji Hayashi1 , Zouheir Sekkat1 , Hidekazu Ishitobi2 , Yasushi Inouye2
1
Mohammed V University (Morocco), 2 Osaka University (Japan)
We propose a metal-insulator-metal (MIM) structure consisting of a thick insulator layer sandwiched with metal
layers. This structure allows to couple surface-plasmon polaritons (SPP). Results of reflectivity calculations
clearly show very sharp resonances attributed to the SPP mode compared to a conventional SPR, which may
find potential applications in sensing problems.
Lunch and Exhibit Inspection
12:30 - 14:00
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14:00 - 15:50 — Malaga
Session 1A14
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
14:00 : Invited talk
Optical Liquid Biopsy in microfluidic devices
Ramon Puebla
Universitat Rovira i Virgili ICREA (Spain)
Detection of circulating tumor cells (CTCs) and their proteinic or nucleic acid markers in bloodstream has
recently gained a clinical relevance since they suppose potential criteria for prognosis and diagnosis of cancer
progression.
14:20 : Invited talk
Colloidal Nano-Assemblies for DNA Detection and Label-Free SERS Tagging
Jessica Rodriguez-Fernandez
Ludwig-Maximilians-Universitat (Germany)
This talk will report on the design and application of nano-assemblies recently devised in our group. Anisotropic metal NPs and DNA oligonucleotides are the corresponding NP and biomolecule building-blocks. It will
be shown how optothermal effects can be used to selectively trigger the disassembly of metal NP-DNA assemblies, and thereby, enable the ultrafast detection of DNA. In another example, discrete nano-assemblies
with strong directional interactions will be presented and proved as sensitive label-free SERS tags.
14:40 : Keynote talk
Nanoplasmonic biosensors for real applications: trends and challenges
Laura M. Lechuga
Catalan Institute of Nanoscience and Nanotechnology (Spain)
Nanoplasmonic biosensors have profiled themselves as competitive alternative to traditional analytical techniques. But one main challenge is their applicability in real scenarios by directly analysing minimum amounts
of body fluids or environmental samples. We will show our main achievements able to surpass this challenge,
rendering our plasmonic sensors in a valuable tool for fast diagnostics, prognosis and follow-up of diseases
or environmental outbreaks.
15:10 : Invited talk
SERS inside Au@Ag nanocuboids and Au@Gap@Au nanomatryoshkas
Nikolai Khlebtsov, B. N. Khlebtsov
Russian Academy of Sciences (Russia)
Raman-active 1,4-aminothiophenol (ATP) and benzenedithiol (BDT) molecules were embedded inside Au@ATP@Ag
nanocuboids and Au@BDT@Au nanomatryoshkas with =1-nm hollow or bridged gaps. The SERS enhancement factor for embedded molecules was about an order of magnitude higher than that for molecules on the
particle surface. Multilayered Mie and FDTD simulations were used to explain the electromagnetic enhancement inside plasmonic nanogaps.
15:30 : Invited talk
Hierarchical Plasmonic Nanostructured Materials: Synthesis and Applications
Miguel A. Correa-Duarte
Universidade de Vigo (Spain)
We report herein the implementation of novel strategies for the fabrication of such materials based on the
confinement of plasmon-resonant nanoparticles.
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14:00 - 16:05 — Ronda
Session 1A15
SP7. Current Advances in Electromagnetics of Metal and HRI dielectric
nanostructures
Organized by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
Chaired by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
14:00 : Keynote talk
Selected problems of light scattering by dielectric nanostructures
Boris Luk’yanchuk, Ramon Paniagua-Dominguez, A. Kuznetsov
A*STAR (Singapore)
Light scattering from structures with high refractive index may produce strong, opticallyinducedelectric and
magnetic resonances. This allows controlling many characteristics of the scatteredlight, including its scattering diagram, intensity distribution and light polarization. As a consequence,it is possible to realize interference
effects such as Kerker and Fano resonances, formation of opticalvortices and excitation of anapole modes.
In this presentation we illustrate some of these effects withthe help of exact solutions in the Mie theory.
14:30 : Invited talk
Dielectric nanoantennas as a new way to enhance and direct scattered light with minimal losses
Pablo Albella, Toshihiko Shibanuma, Stefan A. Maier
Imperial College London (United Kingdom)
Plasmonic nanostructures enable control of light at subwavelength scale. However, losses are inevitable, especially at optical wavelengths. High-refractive index dielectrics show strong promise as a complementary
nanophotonics platform. Dielectric nanostructures are able to show not only electric but also magnetic resonances, both with low-losses. Here, we present asymmetric-dimers of dielectric nanoparticles that exploit
the interaction of those resonances to show tunable directional scattering. We also explore its application as
tuneable routing element at nanoscale, suggesting applications like optical nanocircuitry.
14:50 : Invited talk
Localized magnetic plasmons in all-dielectric structures
Ramon Paniagua-Dominguez1 , Luis S. Froufe-Perez2 , J. J. Saenz3 , J. A. Sanchez-Gil4
1
A*STAR (Singapore), 2 University of Fribourg (Switzerland), 3 Donostia International Physics Center (Spain),
4
Instituto de Estructura de la Materia - CSIC (Spain)
We show how an assembly of all-dielectric nonmagnetic scatterers can support a strong localized magnetic
plasmon resonance considering collections of monodisperse high refractive index spheres exhibiting a strong
magnetic dipole resonance. The effective magnetic permeability of such an ensemble is negative in a given
fequency range, while the effective dielectric permittivity is possitive and small. Localized magnetic plasmon
resonances can be excited in a metasphere made of such metamaterial.
15:10 : Invited talk
Polarization singularities on high index nanoparticles
Aitzol Garcia-Etxarri
Donostia International Physics Center (Spain)
We study the emergence of polarization singularities in the scattered fields of optical resonators excited by
linearly polarized plane waves. First, we prove analytically that combinations of isotropic electric and magnetic
dipoles can sustain L surfaces, and C lines. Moreover, we derive the anomalous scattering Kerker conditions
trough singular optics arguments. Secondly, we demonstrate that high refractive index spherical resonators
present such topologically protected featuresand unveil a Mobius strip structure in the main axis of the polarization ellipse.
15:30 : Invited talk
Magneto-optical activity in high-index dielectric materials
Nuno de Sousa1 , Juan Jose Saenz1 , Antonio Garcia-Martin2
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META’16 Malaga Program
1
Monday 25th July, 2016
Universidad Autonoma de Madrid (Spain), 2 Instituto de Microelectronica de Madrid (Spain)
The magneto-optical response of high-index, non-absorbing dielectric nanospheres is theoretically analyzed.
We will show that in these systems the magneto-optical response is fully governed by the magnetic resonances with little effect of the electric ones.
15:50 : Studying light concentration in a dimer of semiconductor nanoparticles for all-optical devices
Ricardo Vergaz1 , Francisco Algorri1 , Alexander Cuadrado2 , Virginia Urruchi1 , Jose Manuel SanchezPena1 , Braulio Garcia-Camara1
1
Carlos III University of Madrid (Spain), 2 CSIC (Spain)
Scattering by subwavelength dielectric nanospheres can have interesting directional effects in the case of
accomplishing Kerker’s conditions. We have taken advantage of these conditions to design a dimer of semiconductor nanoparticles where an important contrast can be achieved in their gap, due to the directionality
and the interferential interaction of the scattered fields.
14:00 - 16:00 — Nerja
Session 1A16
SP25. Topological photonics
Organized by: Jorge Bravo-Abad
Chaired by: Jorge Bravo-Abad
14:00 : Invited talk
Topological Transport in Photonic Quasicrystals
Miguel A Bandres1 , Mikael C. Rechtsman2 , Mordechai Segev1
1
Technion (Israel), 2 The Pennsylvania State University (USA)
We show that it is possible to have topological transport in a two-dimensional photonicquasicrystal. Hence,
these lattices have unidirectional edgestates that are topologically protectedagainst backscattering as they
pass through defects or around corners. We find that the fractal-likespectrum of the quasicrystal is endowed
with topological band gaps at all energy scales manifestingan entirely new physics phenomenon. These
new fractal topological aspects lay the groundwork fornew conceptual ideas involving topological phases in
quasicrystals.
14:20 : Invited talk
Metamaterial structures to realize real-space gauge-field
Fu Liu, Jensen Li
University of Birmingham (United Kingdom)
By using metamaterials to mimic a pseudo gauge field and pseudo magnetic field to bend light, we can
achieve optical spin Hall effect, one-way topological edge states, which will be useful in spin-dependent and
spoof-magneto optics. In this talk, we will discuss the underlying metamaterial structures to realize such a
gauge field. Reduced parameter approximation is established as a useful tool to simplify experiments without
employing magnetic responses.
14:40 : Invited talk
Synthetic dimensions in multi-mode ring-resonator arrays
Tomoki Ozawa1 , Hannah M. Price1 , Nathan Goldman2 , Oded Zilberberg3 , Iacopo Carusotto1
1
University of Trento (Italy), 2 Universite Libre de Bruxelles (Belgium), 3 ETH Zurich (Switzerland)
We propose a method to produce synthetic dimensions in arrays of multi-mode ring-resonators. This method allows one to use d-dimensional arrays of resonators to simulate (d+1)-dimensional lattice models with
synthetic magnetic fields. Applying the method to one-dimensional array of resonators, we show that such a
structure can be used as an optical isolator. Applying the method to three-dimensional lattices of resonators,
we show that the system exhibits the four-dimensional quantum Hall effect.
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15:00 : Invited talk
Weyl Points and Topological Notions in Electromagnetic Waves
Wenjie Chen, Meng Xiao, Wen-Yu He, Z. Q. Zhang, C. T. Chan
The Hong Kong University of Science and Technology (Hong Kong)
We designed, fabricated and experimentally characterized a Weyl photonic crystal with both single and double Weyl points. Nontrivial 2D bulk band gaps for fixed kz and Weyl points were confirmed by angle-resolved
transmission spectra. The robustness of the associated surface states against kz-preserved scattering was
experimentally observed. In addition, we propose a pseudospin-polarized waveguide without using bulk materials. Wave propagation in the waveguide is robust against deformations that do not induce spin flip, which
were experimentally observed.
15:20 : Invited talk
Topological effects based on spin-orbit coupling of cavity polaritons
Dmitry Solnyshkov, A. V. Nalitov, G. Malpuech
University Blaise Pascal (France)
We show that the TE-TM splitting of planar cavities leads to a special type of spin-orbit coupling for patterned
cavities. Under an applied magnetic field, polariton graphene behaves as a Z topological insulator with chiral
surface states, which can be evidenced by direct resonant excitation. In zigzag chains of pillar cavities, this
coupling brings about the topological edge states and stable dark-bright solitons, allowing to study the KibbleZurek mechanism in condensation.
15:40 : Invited talk
Topological excitons, plexcitons, and polaritons in organic materials
Joel Yuen-Zhou
University of California San Diego (USA)
The control of energy transfer at the nano- and mesoscales is one of the main goals for the development of
efficient light-harvesting architectures and photonic circuitry. Here, we describe our proposals for the design of
topological edge states in excitonic and polaritonic systems composed of organic materials. We shall discuss
models of porphyrin thin films, molecular crystals coupled to plasmonic metals, and organic dyes in an optical
microcavity, which we believe, can be readily implemented experimentally.
14:00 - 16:00 — Antequera
Session 1A17
SP24. Nanophotonics and plasmonics for information applications
Organized by: Haitao Liu
Chaired by: Ya Cheng
14:00 : Invited talk
Photonic spin Hall effect in waveguides composed of two kinds of single-negative metamaterials
Z. W. Guo, K. Yu, Haitao Jiang, H. Chen
Tongji University (China)
In this work, we experimentally demonstrate the photonic spin Hall effect in waveguides composed of two
kinds of single-negative metamaterials. We find that a source with a linear polarization couples equally with
the two guided modes oppositely propagating along the interface. However, a circularly rotating source only
couples with one guided mode with a specific propagating direction, which is determined by the rotation
direction of the source.
14:20 : Invited talk
Efficient generation of prominent and robust plasmonic Fano resonances in a 3D metamaterial
Jiafang Li, Zhiguang Liu, Zhi-Yuan Li
Chinese Academy of Sciences (China)
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META’16 Malaga Program
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We report our recent experimental and theoretical works on the efficient generation of prominent and robust
Fano resonances in a 3D metamaterial. The observed Fano resonances are highly scalable, universal, robust
and immune against both fabrication and illumination imperfections
14:40 : Invited talk
Surface plasmon model for the radiation enhancement by resonant optical dipole antennas
Haitao Liu1 , Hongwei Jia1 , Ying Zhong2
1
Nankai University (China), 2 Tianjin University (China)
We report an intuitive model based on a multiple scattering of surface plasmon polaritons (SPPs) that can
comprehensively predict the emission properties of a dipole antenna. The enhancement of the antenna radiation is shown to be due to surface waves that are resonantly excited on the two antenna arms and that are
further coupled into the nano-gap. Both SPPs and other surface waves contribute to the antenna radiation for
the lowest-order resonance while only SPP dominates at higher-order resonances.
15:00 : Invited talk
Dynamic plasmonic tweezers for nanoparticles and nanowires
Xiujie Dou, Changjun Min, Lichao Zhang, Yuquan Zhang, Xiaocong Yuan
Shenzhen University (China)
The hybrid plasmonic mode between a nanoparticle and a metal film strongly enhances the electromagnetic
field and the induced optical forces. Here, we employ the plasmonic mode to achieve a dynamic plasmonic
tweezers for trapping and manipulation of nanoparticles and nanowires on a flat metal surface. The plasmonic
tweezers can trap metallic, dielectric and semiconductor nano-objects, and control its position and orientation.
Finally we show its potential applications in surface-enhanced Raman scattering and lab-on-a-chip nanowire
devices.
15:20 : Invited talk
Plasmonic and Dielectric Nanoantennas for Integrated Photonic Circuitry
Yuanqing Yang, Jingyi Tian, Hang Zhao, Qiang Li, Min Qiu
Zhejiang University (China)
Nanoantennas, analogues of microwave and radiowave antennas at optical frequencies, have become a
subject of great interest in recent years. Here we review our recent work on both plasmonic and dielectric
nanoantennas. Different designs such as nanohorns, patch dimers and stair-like configurations are presented. In particular, we discuss how to control and functionalize the far-field radiation characteristics of these
nanoantennas and nanoantenna-quantum-emitter coupled systems. These studies are expected to open new
avenues for integrated photonic circuitry and optical wireless communications.
15:40 : Invited talk
Quasi-normal mode formalism for the radiation properties of nanoparticles in optical stacks
Kevin Vynck, Remi Faggiani, Jianji Yang, Philippe Lalanne
Bordeaux University (France)
We propose to exploit the concept of quasi-normal modes (QNMs) to predict rapidly and accurately the radiation properties of small resonant nanostructures (e.g. individual nanoparticles, nanoparticle aggregates)
deposited on or embedded in optical stacks. Once the QNMs of a resonant system are (numerically) calculated, the radiation pattern in free space and in the stack guided modes is known analytically for any excitation.
This method opens the route towards a smart design of hybrid nanoparticle/stack systems with new optical
functionalities.
14:00 - 16:00 — Fuengirola
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META’16 Malaga Program
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Session 1A18
SP1. Active, Nonlinear and Reconfigurable Plasmonics and Metamaterials
Organized by: Christos Argyropoulos and Pai-Yen Chen
Chaired by: Christos Argyropoulos and Pai-Yen Chen
14:00 : Invited talk
Tunable Generation of Graphene Surface Plasmon Polaritons
Mohamed Farhat1 , Hakan Bagci1 , Pai-Yen Chen2 , Sebastien Guenneau3
1
KAUST (Saudi Arabia), 2 Wayne State University (USA), 3 Aix-Marseille University (France)
This work focuses on two recently proposed concepts in graphene plasmonics. (i) Generation and dynamic
steering of Terahertz (THz) beams using graphene antennas. (ii) Efficient and tunable generation of graphene
surface plasmon polaritons (GSSPs).
14:20 : Invited talk
Nonlocal phenomena in metastructures with near-zero parameters
Inigo Liberal1 , Yue Li2 , Nader Engheta1
1
University of Pennsylvania (USA), 2 Tsinghua University (China)
Metastructures with near-zero parameters provide alternative pathways to engineer light- matter interactions.
Here, we emphasize the nonlocal properties of epsilon-near-zero (ENZ) media by demonstrating that the
characteristics of a large scattering body can be manipulated with a single and small actuator. These and
other examples of the nonlocal features of ENZ media will be discussed in our presentation.
14:40 : Invited talk
Inherently Nonrecirocal: Nonlinear Metamaterials
Ekaterina Poutrina, Augustine Urbas
Air Force Research Laboratory (USA)
We demonstrate that non-recirocity of nonlinear generation is inherent and realistically observable in the effective nonlinear multipolar response of nanostructures. A careful design of effective hyperpolarizability terms
allows both a non-reciprocal and unidirectional nonlinear generation where the generation direction is preserved with respect to a fixed laboratory coordinate sysem when reversing the direction of the fundamental field.
Alternatively, it can ensure a directionally selectivi inhibition of the nonlinear response for certain respective
directions of teh fundamental beams.
15:00 : Invited talk
Silver grain nonlinear metamaterial
Tomasz Stefaniuk1 , Nicolas Olivier1 , Alessandro Belardini2 , Concita Sibilia2 , Aleksandra Wronkowska3 ,
Andrzej Wronkowski3 , Tomasz Szoplik4 , Anatoly Zayats1
1
King’s College London (United Kingdom), 2 Sapienza Universita di Roma (Italy), 3 UTP University of Science
and Technology (Poland), 4 University of Warsaw (Poland)
Silver is one of the most commonly used metals for constructing metamaterials working in the visible wavelength range. This is because it has low ohmic losses, associated with small values of imaginary part
of permittivity. In this talk we will demonstrate that due to segregation of germanium atoms to silver grain
boundaries, a smooth silver layer might become a metamaterial itself. This system exhibits such effects as
localised plasmon resonances on encapsulated grains and extraordinary second harmonic generation.
15:20 : Invited talk
Shape and phase of surface plasmon lasers on active metasurfaces
V. T. Tenner, M. J. A. de Dood, M. P. van Exter
University Leiden (The Netherlands)
We study surface plasmon lasing in a simple metamaterial with gain, comprising a square metal hole array
on a semiconductor gain layer. These lasers emit radially polarized vector-vortex beams. We study the origin
of these beams by measuring the radiated intensity in both near and far field and reconstructing the phase of
the emission. The reconstructed phase gives valuable information on the distributedfeedback of these lasers
and reveals the origin of the donut shaped laser beams.
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15:40 : Invited talk
Switchable and reconfigurable nanophotonics: from single antennas to complex systems
Otto L. Muskens1 , Roman Bruck1 , Yudong Wang1 , Kees de Groot1 , Kevin Vynck2 , Philippe Lalanne2 ,
Goran Mashanovic1 , Graham Reed1
1
University of Southampton (United Kingdom), 2 University Bordeaux (France)
I present results aimed at achieving nanoscale switchable and reconfigurable devices. A single nanoantenna
can concentrate intensity and produce an enhanced excitation and readout of a nonlinear Kerr medium. Next
to single-antenna building blocks, we look at highly multimode, complex environments where the light field is
the result of interference of many possible light paths. New types of all-optical control are achieved through
reconfiguring the light field and the medium itself, including ultrafast wave shaping and reciprocity effects.
14:00 - 15:40 — Estepona
Session 1A19
SP15. Non-linear and ultra-fast spectroscopy of nano- and meta-materials
Organized by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
Chaired by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
14:00 : Invited talk
Linear and nonlinear plasmonics with single gold nanorods
Martin Caldarola, W. Zhang, M. Orrit
Universiteit Leiden (The Netherlands)
I will review the recent work of our group using single gold nanorods for fluorescence enhancement as well
as our current efforts to use higher harmonic generation in single nanorods for UV generation and its possible
use as localized source for excitation of blue and near-UV fluorophores.
14:20 : Invited talk
Mode-matched multiresonant plasmonic antennas for enhanced wave mixing at the nanoscale
Michele Celebrano1 , Xiaofei Wu2 , Milena Luisa Baselli1 , Swen Grossmann3 , Paolo Biagioni1 , Lavinia
Ghirardini1 , Giovanni Pellegrini1 , Andrea Locatelli4 , Costantino De Angelis4 , Giulio Cerullo5 , Roberto
Osellame5 , Bert Hecht3 , Lamberto Duo1 , Franco Ciccacci1 , Marco Finazzi1
1
Politecnico di Milano (Italy), 2 University of Bayreuth (Germany), 3 University of Wurzburg (Germany), 4 University
of Brescia (Italy), 5 IFN-CNR - Politecnico di Milano (Italy)
We have developed a paradigm to optimize the second-order nonlinear emission in plasmonic nanoantennas.
This approach is based on the design of broken-symmetry plasmonic nanostructures simultaneously displaying multiple resonances at both the excitation and emission wavelengths and spatial overlap between the
local modes involved. We will describe the properties of the nonlinear emission from these structures and
discuss possible implementations of the introduced paradigm to metasurfaces for applications to nonlinear
sensing and quantum optics.
14:40 : Invited talk
Quantitative optical spectroscopy of single metal nano-objects
Aurelien Crut, Anna Lombardi, Etienne Pertreux, Paolo Maioli, Fabrice Vallee, Natalia Del Fatti
Universite Lyon 1 (France)
We report quantitative investigations of the optical response of individual noble metal nano-objects, performed
by coupling linear and nonlinear optical techniques (spatial modulation and time-resolved spectroscopies)
with electron microscopy observations and numerical simulations. These studies reveal in particular how the
surface plasmon resonances of metal nano-objects are affected by deposition on a substrate, nano-object 3D
orientation and, in the case of nanodimers, by electromagnetic interactions.
15:00 : Invited talk
Monitoring of core-shell particles freely diffusing in solution
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Matteo Martini1 , Meriem Stamboul2 , Anne Debarre2
Universite Claude Bernard Lyon 1 (France), 2 Universite Paris Sud (France)
1
We have developed a spectroscopic approach to study the optical properties of single nanoparticles in suspension. This approach includes the possibility of obtaining the emission spectrum of a particle diffusing
during a few milliseconds in the excitation volume of a microscope. To illustrate this multiparameter spectroscopy, we will discuss the case of the intrinsic photoluminescence of a mixture of gold monomers and gold
dimers and evoke the case of the spectrum evolution of core-shell particles with increasing excitation power.
15:20 : Invited talk
Extreme light confinement in plasmonic taper
Stefan Dilhaire1 , olga lozan1 , Buntha Ea Kim2 , Philippe Lalanne1
1
Universite de Bordeaux (France), 2 Universite Paris XI (France)
We introduce a Time Domain Thermoreflectance (TDTR) approach to reveal, understand and control energy
confinement when going from macro- to nano-scale, i.e. including all conversion processes from incident
photon, to plasmons, electrons, and phonons within space and time scales from micrometer to nanometer,
and from tens of femtoseconds up to tens of picoseconds.
14:00 - 16:05 — Benalmadena
Session 1A20
SP3. PT-symmetry in photonics, metamaterials and plasmonic systems
Organized by: Anatole Lupu and Henri Benisty
Chaired by: Anatole Lupu and Henri Benisty
14:00 : Invited talk
Control of Power in Parity-Time Symmetric Lattices
Maksim Kozlov1 , Georgios Tsironis2
1
Nazarbayev University (Kazakhstan), 2 University of Crete (Greece)
We demonstrate that in the longitudinally modulated Parity-Time symmetric lattices the light wave power can
be controlled through overlap of gain-loss distribution with intensity pattern formed by interference of Rabicoupled Floquet-Bloch modes.
14:20 : Invited talk
Parity-Time Symmetric Chain Resonators
Sendy Phang, Ana Vukovic, Stephen C. Creagh, Gabriele Gradoni, Phillip D. Sewell, Trevor Benson
University of Nottingham (United Kingdom)
A simple tight-binding model to study the band-structure of an infinite length Parity-time (PT) symmetric chain
of resonators is presented in this paper. In the talk, we will investigate the impact of having a structure of
finite length and consider the effect of a modulation of the real part of the refractive index on the complete
band-structure of the PT-chain system. For a finite PT-chain structure under certain modulation, we observe
the existence of a localised mode which is either lasing or dissipating.
14:40 : Invited talk
Non-Hermitian Acoustics
Hamidreza Ramezani1 , Chengzhi Shi2 , Marc Dubois2 , Yuan Wang2 , Xiang Zhang2
1
University of Texas Rio Grande Valley (USA), 2 University of California Berkeley (USA)
We introduce the concept of non-Hermitian parity-time (PT) symmetric acoustics. We show that the PT symmetric acoustic structure becomes transparent from one side at the exceptional point with perfect transmission
and zero reflection from one side. We demonstrate a method to obtain simultaneous control of complexvalued potentials and multiple interference inside the structure to accomplish the exceptional point at any
given frequency. Moreover, we propose a mechanism for directional excitation based on impedance matched
PT symmetric potential.
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15:00 : Invited talk
Rings of Exceptional Points
Marin Soljacic
MIT (USA)
We present our recent work on exceptional points in 2D periodic photonic crystal slabs. Since these are 2D
systems, the resulting system has not only one exceptional point (like is typical in 1D), but rather a ring of
exceptional points. Its properties and potential applications will be discussed.
15:20 : Origin of folded bands in metamaterial crystals
Peter Markos, Richard Hlubina
Comenius University in Bratislava (Slovakia)
Spectra of metamaterial photonic crystals may contain frequency bands whichdisappear inside the Brillouin
zone (folded bands). We observe that the wave equations for suchsystems are essentially non-Hermitian,
but PT -symmetric. We show that the real-frequencyspectra correspond to PT -symmetric solutions of the
wave equation. At those momenta in theBrillouin zone where no real solutions exist, there appear pairs of
complex-frequency solutionswith spontaneously broken PT symmetry.
15:35 : Tailoring spectral properties of local Parity-Time symmetry grating devices for integrated optics
Anatole Lupu1 , Henri Benisty1 , Andrei V. Lavrinenko2
1
Universite Paris Sud (France), 2 Technical University of Denmark (Denmark)
We explore the functionalities of nonuniform Parity-Time -symmetric structures with engineered complexindex-modulation profiles. The use of nonuniform coupling or gain-loss modulation profiles brings a number of
advantages as compared to the uniform PT-symmetric structures. The intention of the undertaken approach is
to show that many conventional techniques previously developed for passive-type grating-assisted or coupledwaveguide devices for integrated optics can be transposed and adapted to a PT-symmetric case, fostering
thus a new generation of active photonic devices.
15:50 : Constant-Intensity waves in Media with Gain and Loss
Konstantinos Makris1 , Andre Brandstotter2 , Philipp Ambichl2 , Ziad Musslimani3 , Demetrios Christodoulides3 ,
Stefan Rotter2
1
University of Crete (Greece), 2 Vienna University of Technology (Austria), 3 Florida State University (USA)
When impinging on a non-uniform potential landscape, waves typically scatter and diffract, resulting in a highly
complex interference pattern in the waves’ intensity. In my talk I will introduce a special class of waves that
defy this common picture by maintaining a constant-intensity even in the presence of strong variations of the
potential, provided that a suitable combination of gain and loss is added to it.
14:00 - 16:00 — Mijas
Session 1A21
SP14. Nano and Mesoscopic Optics in Colloidal and Granular Systems
Organized by: Aristide Dogariu and Juan J. Saenz
Chaired by: Aristide Dogariu and Juan J. Saenz
14:00 : Invited talk
Coherent Control of Light in Disordered Media Assisted by Long-range Correlations
Chia Wei Hsu1 , Seng Fatt Liew1 , Arthur Goetschy2 , Yaron Bromberg1 , A. Douglas Stone1 , Hui Cao1
1
Yale University (USA), 2 ESPCI ParisTech (France)
In recent years, wavefront shaping has become a powerful tool for manipulating the transport of light in
disordered media. We show that long-range correlations in the coherent diffusion allow more control on nonlocal properties than one could in uncorrelated systems. Spatially, moving from controlling a single speckle
grain (local) to controlling a large area (global), the effects of long-range correlations become prominent.
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Spectrally, long-range correlations reduce the spectral degrees of freedom and enable the broadband control
of light.
14:20 : Invited talk
Launching optical energy into the fundamental diffusion mode of a complex nanophotonic medium
Femi Ojambati, Hasan Yilmaz, Ad Lagendijk, Allard P. Mosk, Willem L. Vos
University of Twente (The Netherlands)
We demonstrate experimentally that optical wavefront shaping increases light coupling into the fundamental
diffusion mode of a scattering medium. The total energy density inside a scattering medium of zinc oxide
(ZnO) nanoparticles was probed by exciting fluorescent spheres that were randomly positioned in the medium.
We observe that the total fluorescent power is enhanced when the incident wavefront is optimized. Our model,
which is based on the fundamental diffusion eigensolution agrees well with experimental data.
14:40 : Invited talk
Polarization revival through scattering media
Hilton B. de Aguiar1 , Sylvain Gigan2 , Sophie Brasselet1
1
Institut Fresnel (France), 2 Universite Pierre et Marie Curie (France)
Recently, microscopy in scattering media has been enabled by impressive developments of wavefront shaping
techniques. However, current demonstrations only allow retrieving information at a microscopic level. In this
contribution, we demonstrate an unprecedented phenomenon with which deep molecular-level imaging may
be enabled: polarization revival via wavefront shaping.
15:00 : Invited talk
Spatial structure of transmission eigenchannels and densities of states of random media
Matthieu Davy1 , Z. Shi2 , C. Tian3 , A. Z. Genack2
1
University of Rennes 1 (France), 2 Queens College of the City University of New York (USA), 3 Tsinghua
University (China)
We explore the spatial structure of the energy density of eigenchannels of the transmission matrix within
random media. Using a connection with the generalized diffusion equation, we provide an expression of its
ensemble average for any transmission eigenvalue. We further show that the contribution of each eigenchannel to the density of states can be determined from measurements of spectra of the transmission matrix. This
contribution is equal to the stored energy density in each eigenchannel.
15:20 : Invited talk
Eigenchannels in scattering media: from manipulation to inverse design
Alexey Yamilov1 , Sasha Petrenko1 , Milan Koirala1 , Raktim Sarma2 , Hui Cao2
1
Missouri University (USA), 2 Yale University (USA)
We demonstrate control of transport of light inside disordered waveguides by modifying the transmission
eigenchannels. We obtain a relationship between the shape of the waveguide and the eigenchannel profile
that opens the possibility of inverse design. Our approach allows one to control not only the transmitted but
also reflected and absorbed light.
15:40 : Invited talk
Cellulose bio-inspired hierarchical structures
Silvia Vignolini
University of Cambridge (United Kingdom)
Nature’s strongest and vivid colours rely on the ability to produce complex and hierarchical photonic structures
with lattice constants on the order of the wavelength of visible radiation. A common strategy design that is
found both in the animal and plant kingdoms for producing such effects is the helicoidal multilayers. In such
structures, a series of individual nano-fibers (made of natural polymers as cellulose and chitin) are arranged
parallel to each other in stacked planes.
14:00 - 16:10 — Alhaurin
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Session 1A22
SP27. Magnetic Surface Polaritons: interactions between the magnetic,
plasmonic, acoustic surface waves
Organized by: Raa’nan Tobey and Vasily Temnov
Chaired by: Raa’nan Tobey and Vasily Temnov
14:00 : Enhanced Magneto-optical Effect in Magnetoplasmonic Ring-Split ring structures
Hua Yu Feng1 , Feng Luo1 , Raul Arenal2 , Fernando Garcia3 , Gaspar Armelles3 , Alfonso Cebollada3
1
IMDEA Nanoscience (Spain), 2 Universidad de Zaragoza (Spain), 3 IMM-Instituto de Microelectronica de Madrid (Spain)
We study the localized plasmon resonance enhanced magneto-optical effect in the magnetoplasmonic ringsplit ring structure. A split Au ring is generated on top of an Au ring in which a Co-dot has been embedded.
By optimizing the split ring gap, the electromagnetic field is redistributed and focused around the Co-dot, therefore the MO activity boosts and is maximized for structure with a gap of 60deg, exhibiting an enhancement
factor of 3 compared to the one without gap.
14:15 : Harnessing magnetoplasmons to induce topological excitations
Joel Yuen-Zhou
University of California San Diego (USA)
I will discuss how to couple magnetoplasmons with excitons in an organic molecular crystals to obtain topologically protected edge states.
14:30 : Invited talk
Tunable magneto-acoustic crystals
Florian Allein, Vincent Tournat, Vitali Gusev, Georgios Theocharis
Universite du Maine (France)
We study the dynamics of 1D magneto-acoustic crystals composed of a chain of steel spherical beads inside
a properly designed magnetic field. We display the theoretical dispersion relations considering all six degrees
of freedom of the individual beads and compare with the obtained experimental results. We present experimental evidence of transversal-rotational modes of propagation and tunability of the response by changing
the strength of the magnetic field.
14:50 : Invited talk
Switching of the Magnetic Moment by Mechanical Motion
Eugene M. Chudnovsky
The City University of New York (USA)
Spin-rotation coupling limits the quality factor of a nanoresonator and generates non-trivial quantum mechanics of molecules grafted on carbon nanotubes. Problems of practical interest include switching of the
magnetic moment in a nanoresonator by the combined effect of the spin-polarized current and mechanical
kick, electromechanical magnetization switching in multiferroics, and switching of the magnetization by surface acoustic waves.
15:10 : Invited talk
Spin transport and manipulation in GaAs quantum wells by surface acoustic waves
Alberto Hernandez-Minguez, Klaus Biermann, Rudolf Hey, Paulo Ventura Santos
Paul-Drude-Institut fur Festkorperelektronik (Germany)
The fields of a surface acoustic wave (SAW) produce a moving potential modulation on semiconductor structures. This modulation can capture photo-excited, spin-polarized electrons and holes in an intrinsic semiconductor structure and transport them with the acoustic velocity. Here, we review recent results on the acoustic
transport and manipulation of optically excited spins in (Al,Ga)As quantum wells at high (i.e. above liquid
nitrogen, LN) temperature.
15:30 : Invited talk
Ultrafast Surface Magnetoelastic Waves
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J. Janusonis1 , C. L. Chang1 , A. M. Lomonosov2 , V. Shalagatskyi2 , V. S. Vlasov2 , V. V. Temnov2 , Raa’nan
Itzhak Tobey1
1
University of Groningen (The Netherlands), 2 Universite du Maine (France)
Surface magnetoelastic waves are generated using a hybrid magnetooptic / transient grating technique. This
approach allows us to measure the structural and magnetic degrees of freedom independently and demonstrate resonant coupling between these disparate degress of freedom. We show the excitation of two distinct
elastic waves in the transient grating geometry, and the selective resonant coupling to the magnetization of
each individually. At resonance, large amplitude magnetization precession is shown.
15:50 : Invited talk
Magneto-elastic Symmetry Breaking with Surface Acoustic Waves
Alexey Lomonosov1 , Vladimir Vlasov1 , Julius Janusonis2 , Chia-Lin Chang2 , Raanan Tobey2 , Thomas
Pezeril1 , Vasily Temnov1
1
Universite du Maine (France), 2 University of Groningen (The Netherlands)
Surface magneto-elastic waves (SMEW) are polaritons consisting of the coupled surface acoustic waves
(SAW) and ferromagnetic resonance (FMR) precession. In nickel thin films the magneto-elastic nonreciprocity manifests itself in the dependence of SMEW phase velocity on the direction of the in-plane magnetic
external magnetic field. A simplified analytical approach, where FMR-resonance is driven by a standing SAW
provides a complimentary view on the nonreciprocity and is applied to describe symmetry breaking observed
in ultrafast transient grating experiments.
14:00 - 15:15 — Coin
Session 1A23
SP18. A bottom-up approach towards metamaterials and plasmonics
Organized by: Dorota Pawlak and Wounjhang (Won) Park
Chaired by: Wounjhang (Won) Park and Virginie Ponsinet
14:00 : Invited talk
Optical and Opto-electronic Properties of Self-Assembled Meta Systems
Augustine Urbas
Air Force Research Lab (USA)
Self-assembly offers a suite of capabilities for forming and arranging multi-material systems in complex, three
dimensional and precise structures. In this presentation, we will explore systems that leverage self-assembly
primarily and as a component of hybrid assembly techniques to produce meta-systems with new properties in
linear and nonlinear optics as well as opto-electronic applications. The materials and effects span wavelength
ranges and demonstrate the potential for precise and localized fabrication and large area complex materials
synthesis.
14:20 : Invited talk
Band-edge photonics: a promising approach for next-generation light emitters
Kyungtaek Min, Heonsu Jeon
Seoul National University (Korea)
The most common application have been band-edge lasers, which can be obtained by tuning a band-edge
mode to the emission wavelength of gain material. In this talk, we present a new approach in utilizing bandedge modes, where a band-edge mode is tuned to excitation wavelength. By properly designing the photonic
crystal structure, we could obtain a large enhancement in optical absorption and therefore subsequent fluorescence, which is particularly suitable for phosphor applications.
14:40 : Invited talk
Ultra-confined acoustic THz graphene plasmons revealed by photocurrent nanoscopy
Pablo Alonso-Gonzalez1 , Alexey Y. Nikitin1 , Yuanda Gao2 , Achim Woessner3 , Mark B. Lundeberg3 ,
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Alessandro Principi4 , Nicolo Forcellini5 , Wenjing Yan1 , Saul Velez1 , Andreas. J. Huber6 , Kenji Watanabe7 ,
Takashi Taniguchi1 , Luis E. Hueso1 , Marco Polini8 , James Hone9 , Frank H. L. Koppens3 , Rainer Hillenbrand1 0
1
CIC nanoGUNE (Spain), 2 Columbia University (USA), 3 ICFO-Institut de Ciencies Fotoniques (Spain), 4 Radboud
University (The Netherlands), 5 Imperial College London (UK), 6 Neaspec GmbH (Germany), 7 National Institute for Materials Science (Jaman), 8 Istituto Italiano di Tecnologia (Italy), 9 Columbia University, (USA),
1
0IKERBASQUE (Spain)
Here, we will present on the first visualization of propagating graphene plasmons (GPs) at THz frequencies,
which can also be controlled by metallic (split) gates. Intriguingly, due to the coupling of GPs with the metal
gate underneath we observe a linearization of the plasmon dispersion (thus revealing acoustic plasmons),
which comes along with an extreme confinement of the plasmon fields. These extraordinary GPs properties
are very promising for sensing and communication technologies.
15:00 : Bulk rigid terahertz metamaterials based on dielectric microspheres
Christelle Kadlec1 , Michal Sindler1 , Filip Dominec1 , Petr Kuzel1 , Catherine Elissalde2 , U-Chan Chung2 ,
Patrick Mounaix2 , Hynek Nemec1
1
Institute of Physics, Academy of Sciences (Czech Republic), 2 University of Bordeaux (France)
Rigid metamaterials were prepared by embedding TiO2 microspheres into polyethylene. These structures
exhibit a series of Mie resonances where the lowest one is associated with a strong dispersion in the effective
magnetic permeability. Using time-domain terahertz spectroscopy, we experimentally demonstrated the magnetic nature of the observed resonance. Thepresented approach shows a way for low-cost mass fabrication
of mechanically stable terahertz metamaterials based on dielectric microresonators.
15:15 - 16:00 — Coin
Session 1A24
GEN14. Near-field optics and nano-optics
Chaired by: Adrian Cernescu
15:15 : Introducing nano-FTIR: Imaging and Spectroscopy at 10nm spatial resolution
Adrian Cernescu
Neaspec GmbH (Germany)
Scattering-type Scanning Near-field Optical Microscopy (s-SNOM) allows to overcome the diffraction limit of
conventional light microscopy or spectroscopy enabling optical measurements at a spatial resolution of 10nm
not only at visible frequencies but also in the infrared or terahertz spectral range.
15:30 : Near-field dichroism of azo-polymers for optical switching and image storage
Sergey Kharintsev1 , A. V. Kharitonov1 , M. D. Dmitrieva1 , A. I. Fishman1 , S. G. Kazarian2
1
Kazan Federal University (Russia), 2 Imperial College London (United Kingdom)
This work aims at the study of antenna-driven near-field dichroism of a sub-10 nm epoxy-based azo-polymer
thin film. Orientation mechanisms of azo-chromophores (DO3) covalently attached to a polymer backbone
as a side-chain are spectroscopically and electrically explored with tip-enhanced Raman scattering and differential scanning capacity microscopy, respectively. Photo-induced heating of a substrate-free polymer film
and its glassy temperature is investigated with scanning thermal microscopy. Nanoscale dichroism of the
azopolymers opens the door to improved optical data storage performance.
15:45 : Enhancement of light emission from an optically pumped bias driven tunneling junction
Xiao Wang, Kai Braun, Dai Zhang, Heiko Peisert, Hilmar Adler, Thomas Chasse, Alfred J. Meixner
Eberhard Karls University Tubingen (Germany)
We experimentally demonstrate enhancement of photoluminescence from an optically pumped bias driven pristine Au-substrate/Au-tip tunneling junction and a molecular tunneling junction (Au-substrate/selfassembled molecular monolayer/Au-tip) with molecules chemically bound to the Au substrate.
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14:00 - 15:45 — Blanca
Session 1A25
GEN1. Plasmonics and nanophotonics
Chaired by: Andrea Fratalocchi
14:00 : Plasmonic nanodisks fabricated on a sinuous shape stretchable substrate
Di Feng1 , Chunxi Zhang1 , Ningfang Song1 , Huipeng Li1 , Hui Fang2 , Hui Zhang3 , Ajay Kaushal4
1
Beihang University (China), 2 University of Illinois (USA), 3 Rice University (USA), 4 University of Aveiro (Portugal)
In this paper, we report on fabrication and analytical studies of plasmonic nanostructures on elastomeric
substrates of poly(dimethylsiloxane) that are designed with three dimensional (3-D) sinusoidal, wavy features
of surface relief. The fabricated device was characterized for its optical properties at different strain values
and polarized directions. The optical resonance peak measured was found to shift towards lower wavelength
when stretched perpendicular to polarized direction, whereas red shift was observed when stretched parallel
to polarized direction.
14:15 : Leakage imaging and tracking of ultrafast surface plasmon pulses
Yuri Gorodetski1 , Thibault Chervy2 , Shaojun Wang2 , James Andel Hutchison2 , Aurelien Drezet2 , Cyriaque Genet2 , Thomas Ebbesen2
1
Ariel University (Israel), 2 Strasbourg University (France)
We introduce a new method for performing ultrafast imaging and tracking of surface plasmon wave packets
that propagate on metal films. We demonstrate the efficiency of leakage radiation microscopy implemented
in the time domain for measuring both group and phase velocities of near-field pulses with a high level of
precision. The versatility of our far-field imaging method is particularly appealing in the context of ultrafast
near-field optics.
14:30 : Far-field control of hot-spots on random metal-dielectric networks
Pierre Bondareff1 , Giorgio Volpe2 , Sylvain Gigan1 , Samuel Gresillon1
1
University Pierre et Marie Curie (France), 2 University College London (United Kingdom)
Efficient control of carefully designed nanostructure has been achieved recently, but fabrication and accessibility of the modes addressed from the far-field still represent open challenges. But disorder can be turned into
an advantage to control light propagation. We propose a new experimental scheme where plasmonics modes
on random metal-dielectric networks are tuned by wavefront shaping which allows to extract information about
the extension of the modes and also far field control of hot-spots.
14:45 : Utilization of hybrid plasmonic modes to investigate surface interactions between nanocubes
and polymer substrates
Adam Bottomley, Daniel Prezgot, Jason P. Coyle, Mike Bushell, Anatoli Ianoul
Carleton University (Canada)
Silver nanocube monolayers deposited on polymer films were heated past the glass transition temperature of
the polymer. Surface interactions between the cubes and substrate dictate the depth and rate of incorporation
into the polymer. Silver nanocubes support hybrid plasmonic modes that are spatially separated when there
is anisotropy in the local refractive index. Using this measure, it becomes possible to monitor the position of
the cubes relative to the surface and tune spectral features in the visible spectrum.
15:00 : Tuning the optical response of dewetted silver lms through nanopatterning
Paul Jacquet1 , Iryna Gozhyk2 , Jeremie Teisseire3 , Jacques Jupille4 , Remi Lazzari4
1
CNRS/Saint-Gobain (France), 2 Saint-Gobain (France), 3 CNRS / Saint-Gobain (France), 4 Universite Paris VI
(France)
Thin metallic lms can be unstable upon deposition. A phenomenon called dewetting leads to hole appearance
and propagation until only isolated particles remain. We studiedthe optical response of the system during
the dewetting process and the possibilities to tune theoptical response of the particles through substrate
nanopatterning.
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15:15 : Additive nano- and micro-structures towards perfect anti-refector surfaces
Yoshiaki Nishijima1 , Ryosuke Komatsu1 , Shunsuke Ohta1 , Gediminas Seniutinas1 , Armandas Balcytis2 ,
Saulius Juodkazis3
1
Yokohama National University (Japan), 2 Swinburne University ofTechnology (Australia), 3 Swinburne University of Technology (Australia)
Engineering of surface texture and pattern is important for efficient light trapping and constructing antirefrection surfaces. Here we demonstrate the nano-micro composite structures formed using combination
of dry and wet etching processes on the surface of Si. Anti-reflection property has been dramatically improved towards perfect anti-reflectors as demonstrated by spectral measurements.
15:30 : Direct coupling of InAs quantum dot excitons with surface plasmon polaritons
Fernando Wellysson de Alencar Sobreira1 , Yuriy Mazur2 , A. Xian Hu2 , Gregory Joseph Salamo2 , Euclydes Marega Junior1
1
Universidade de Sao Paulo (Brazil), 2 University of Arkansas (USA)
When placed near a thin metallic film, excitons in a quantum dot (QD) decay into surface plasmon polaritons
(SPPs), guided modes of light confined at the interface of the metal/dielectric. It was reported that the interaction of SPPs with excitons in a QD may give rise to a modification in the photoluminescence (PL) spectra
of the exciton energy levels, however the mechanism that explains this modification remains unclear.
14:00 - 15:00 — Sierra Nevada
Session 1A26
GEN8. Metamaterial-based devices and antennas
Chaired by: Amr M. E. Safwat
14:00 : Tunable EIT-like effect in wire/ring structure metamaterial
Quanhong Fu, Fuli Zhang, Yuancheng Fan
Northwestern Polytechnical University (China)
We integrate varactor diodes into wire/ring structure, and investigate the tunable EIT-like effect by simulation.
Via interference between the electric dipole mode of wire and magnetic dipole mode of ring, EIT-like transmission spectrum with prominent slowing light behavior appears. The transmission peak of wire/ring structure
exhibits a blueshift up to 0.97 GHz as the capacitance of varactor diodes ranges from 0.9 pF to 1.8 pF. The
wire/ring structure demonstrates a transmission modulation with modulation depth of 97percent.
14:15 : Design by using equivalent circuits of reflective FSS’s converting
Juan E. Page
Universidad Politecnica de Madrid (Spain)
A dual mode equivalent circuit is used to design reflective FSS’s converting the linear polarization of a normally incident wave to a circular polarization of the reflected one. The polarization sign can be selected during
the design.
14:30 : A triangular coupled-resonator antenna for ultra-wideband applications
Md. Zulfiker Mahmud1 , Touhidul Alam2 , Mohammad Tariqul Islam2
1
University Kebangsaan Malaysia (Malaysia), 2 Universiti Kebangsaan Malaysia (Malaysia)
A triangle shaped coupled resonator microstrip patch antenna is presented for ultra-wideband wireless applications. The antenna achieves bandwidth of 116.5percent with electrical dimension at lower frequency band.
The antenna performances has been analyzed using the finite integration technique of computer simulation
technology microwave studio and validated with another EM simulating software HFSS.
14:45 : Multi-Band CRLH Loaded Patch Antenna
Sally I. El-Henawy1 , Ahmed Abdelmottaleb Omar2 , Amr M. E. Safwat1 , Hadia Said El-Hennawy1
1
Ain Shams University (Egypt), 2 Nanyang Technological University (Singapore)
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A multi-band patch antenna loaded with composite right/left-handed (CRLH) unit cell is presented in this
paper. It operates at three bands, which are not harmonically related, covering several communication standards. The first and third bands have patch like radiation pattern, the second band has monopole like radiation
pattern. These bands can be controlled by varying the patch size and unit cell elements values. The performance was analyzed using both electromagnetic and circuit simulations.
15:00 - 16:00 — Sierra Nevada
Session 1A27
GEN18. Emerging applications
Chaired by: Monika Fleischer
15:00 : Sensing the surface plasmon resonance at the quantum noise limit
Karsten Pufahl, Jan Heckmann, Ulrike Woggon, Nicolai B. Grosse
Technical University of Berlin (Germany)
The mono-layer deposition of molecules onto a substrate leads to perturbations inthe local refractive index.
These can be tracked via surface plasmon resonance (SPR) sensing. Weshow that the commonly-employed
incoherent detection scheme (locating the intensity centroidafter Gaussian illumination) is only 86percent
efficient when compared to an optimal coherent schemeoperating at the quantum-noise-limit. We derive expressions for the detectability, and advisehow the spatial modes for illumination and detection are best tailored
to the SPR resonance.
15:15 : Plasmonic waveguide based mid-infrared lab-on-a-chip
Benedikt Schwarz1 , Daniela Ristanic1 , Peter Reininger1 , Hermann Detz2 , Aaron Andrews1 , Werner
Schrenk1 , Gottfried Strasser1
1
Institute for Solid State Electronics and Center of Micro- and Nanostructures (Austria), 2 Austrian Academy
of Sciences (Austria)
Dielectric-loaded plasmonic waveguides are perfectly suitable for on-chip sensingof fluids. They allow long
propagation length and large mode overlaps above 96percent with a the analyte. Dielectric-loading is a alternative approach to increase the confinement of mid-infrared surface plasmons without the need for subwavelength patterning. Direct excitation and detection is realized using chip integrated quantum cascade
lasers and detectors, enabling the realization of a monolithically integrated mid-infrared lab-on-a-chip.
15:30 : Metamaterial Integrated Microfluidic Terahertz Sensors
Xin Hu1 , Gaiqi Xu1 , Yaxin Zhang2 , David Cumming3 , Qin Chen1
1
Chinese Academy of Sciences (China), 2 University of Electronic Science and Technology (China), 3 University
of Glasgow (United Kingdom)
By constructing a metallic microstructure array-dielectric-metal structure, a metamaterial integrated microfluidic sensor is demonstrated in terahertz range, where the dielectric layer is hollow with the strongest electric
field distribution and acts as the microfluidic channel. A record high sensitivity of 3.5THz/RIU is predicted
by numerical simulation due to the confined field sensing rather than the regular exponential field sensing.
Normalized the sensitivity to the working frequency, the calculated and measured normalized sensitivity is
0.55/RIU and 0.31/RIU, respectively.
15:45 : Graphene Array Antenna for 5G Applications
Siti Nor Hafizah Sa’don1 , Muhammad Ramlee Kamarudin1 , Fauzan Ahmad1 , Muzammil Jusoh2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Malaysia Perlis (Malaysia)
Fifth generation (5G) needs to provide better coverage than the previous generation. However, high frequency
and millimeter wave experience penetration loss, propagation loss and even more loss in energy for long distance. Hence, a graphene array antenna is proposed for high gain to cover the long distance communications
since array antenna enables in providing more directive beams.
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Coffee Break and Exhibit Inspection
Session 1P2
Poster session II
16:00 - 16:40
P1: Plasmonic Mach-Zehnder Modulator with Direct Coupling Silicon Waveguides
Abdalrahman Mohamed, Mohamed Swillam
The American University in Cairo (Egypt)
The electrical interconnects is one of the milestones towards developing computers, due to their speed and
heat problems. The delay in the interconnects nowadays is comparable to the delay on the gate level. A
solution that can solve both problems is the optical interconnects. To interface the electronic gates on the processing level to the optical interconnects, We need optical modulators, that can fit in the electronics industry,
which is our main focus in this work.
P2: Controlling fluorescence emission by surface plasmon resonance in multilayer core-shell metallic
nanoparticles
Monica Focsan, Andreea Campu, Ana Craciun, Sorina Suarasan, Cristian Tira, Adriana Lazar, Simion
Astilean
Babes Bolyai University (Romania)
There is still the need of not only controlling and understanding of fluorescent molecules-nanoparticles interactions but also of designing new types of fluorescent hybrid nanostructures with substantially improved
brightness and photo-stability.
P3: Semiconductor Plasmonic Gas Sensor Using On-Chip Infrared Spectroscopy
Mohamed Yousef Elsayed1 , Yehea Ismail1 , Mohamed A. Swillam2
1
Zewail City of Science and Technology (Egypt), 2 American University in Cairo (Egypt)
We designed a plasmonic slot waveguide that works in the mid infrared range using Indium Arsenide. By
operating in the fingerprint region of IR spectroscopy, the waveguide acted as a selective sensor, with peaks
in the transmission spectrum corresponding to the characteristic IR absorption spectrum. The sensor was
demonstrated using finite different time domain simulations with a couple of gases. This constitutes a labelfree sensing method that can be used for a variety of IR-active analytes.
P4: Accelerating Performances of a Waveguide Mode Solver Based on Boundary Integral Equations
Julien Vincent, Priscillia Daquin, Ronan Perrussel, Jean-Rene Poirier, Han-Cheng Seat
Universite de Toulouse (France)
Computations of Photonic Crystal Fibers with a waveguide mode solver based on boundary integral equations give rise to a nonlinear eigenvalue problem. In this paper, datasparse approximations of matrices are
investigated to optimize the computations without loss of accuracy.
P5: Scattering Calculation of Bianisotropic Particle Slabs for Normal Incidence via Retrieved Polarizabilities
Theodosios D. Karamanos, Athanasios N. Papadimopoulos, Nikolaos V. Kantartzis, Theodoros D. Tsiboukis
Aristotle University of Thessaloniki (Greece)
A methodology for the calculation of the reflection/transmission coefficients from bianisotropic metamaterial
slabs is presented. Initially, simple bianisotropic particles that compose finite slabs are approximated as electric and magnetic dipoles. After the polarizabilities of the single particle are acquired, the dipole moments of
the slab are evaluated for a TEM incidence. Finally, the required coefficients are obtained via the summation
of the scattering fields from equivalent surfaces that comprise the slab.
P6: Energy Tunneling Behavior in Geometrically Separated Wave Guides
Muhammad Omar1 , Rashad Ramzan1 , Omar Farooq Siddiqui2
1
United Arab Emirates University (United Arab Emirate), 2 Taibah University (Saudi Arabia)
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In this paper, characteristics of energy tunneling channel between the waveguides geometrically separated by
a coaxial cable are studied. The novel aspect of design is use of coaxial channel to connect the waveguides
while maintaining the energy tunneling phenomena.
P7: Plasmonic Color Filters for Industrial Applications
Luc Duempelmann1 , Angelique Luu-Dinh1 , Benjamin Gallinet1 , Lukas Novotny2
1
CSEM (Switzerland), 2 ETH Zurich (Switzerland)
We present color filters based on plasmonic nanostructures showing an angle- or rotation-dependent color
output. Such a tune-ability of color can be beneficial and key element for several applications such as anticounterfeiting, sensing, solar cell or display. The structures and materials can be adapted to cover a wide
spectral range, the fabrication method is in-line with industrial fabrication standards.
P8: An electromechanically tunable photonic crystal nanocavity with integrated photodetector for
wavelength and displacement sensing
Zarko Zobenica1 , Rob van der Heijden1 , Maurangelo Petruzella1 , Francesco Pagliano1 , Rick Leijssen1 ,
Tian Xia1 , Leonardo Midolo1 , Michele Cotrufo1 , Yongjin Cho1 , Frank van Otten1 , Ewold Verhagen2 ,
Andrea Fiore1
1
Eindhoven University of Technology (The Netherlands), 2 FOM Institute AMOLF (The Netherlands)
A double-membrane, electromechanically tunable photonic crystal cavity is presented, with an internal photodetector integrated in one of the membranes. With the cavity resonance sensitively dependent on the membrane separation, the device can be operated as an integrated spectrometer for external radiation, or as a
displacement sensor with sub-pm resolution and direct photocurrent output.
P9: Tuning the Propagation of Spoof Surface-Plasmon Polaritons
Mario F. Pantoja1 , Zhihao Jiang2 , Pingjuan L. Werner2 , Douglas H. Werner2
1
University of Granada (Spain), 2 The Pennsylvania State University (USA)
Spoof surface-plasmon polaritons (SSPPs) mimic the metal-dielectric confinement that occurs naturally at
near-infrared and optical frequencies by including grooves in the metallic material. If the dispersion relation
is known, then SSPP properties can be manipulated by the groove geometry. This contribution presents a
theoretical procedure linking waveguide theory with the interfacial boundary conditions. As an example, we
apply this method to SSPPs based on radial grooves, which show a higher degree of tunability than those
based on rectangular geometries.
P10: Chiral Au-crescents fabricated by angled hole-mask colloidal lithography for plasmon-enhanced
CD measurements
Gunnar Klos, Duncan Stewart Sutherland
Aarhus University (Denmark)
I report a new fabrication technique for chiral metal nanoparticles based on hole-mask colloidal lithography
and angled evaporation. These plasmonic particles show a significant circular dichroism (CD) response and
are promising candidates for plasmon-enhanced molecular CD measurements.
P11: Optical Nanofilters Based on Plasmonics Waveguide with Archimedes Spiral Nanostructure
Youwen Liu, Yuncai Feng, Daxing Dong, Xiaohua Wang
Nanjing University (China)
A plasmonics nanofilter based on the Metal-insulator-metal waveguide with an Archimedes’ Spiral nanostructure is proposed and demonstrated by FDTD method. The simulation results indicate that the transmission
valley and peak can be tuned by the rotation angle of the right-handed Archimedes (RAS) spiral structure
and the number of channel can be adjusted by the number of the RAS ring. The unique feature may have
potential applications in filter, sensor and photonic integrated circuits.
P12: Minimum Forward Light Scattering by Silicon nanopillars
Jose Francisco Algorri1 , R. Vergaz2 , A. Cuadrado3 , J. M. Sanchez-Pena2 , B. Garcia-Camara2
1
Carlos III University of Madrid (Spain), 2 Carlos III University of Madrid (Spain), 3 CSIC (Spain)
In this paper, we demonstrate that for silicon nanopillars an optimum aspect ratio can be found, at which the
overlapped electric and magnetic dipole resonances provide an optimized minimum forward scattering. This
optimum shape depends on the aspect ratio, wavelength and refractive index of the surrounding medium.
We work in the frame of numerical simulations based on Maxwell equations solved by finite element method.
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These results are promising for design and create novel flat optical devices.
P13: Double Hot-Spot Dual-Polarization Elliptical Crescent Nanoantenna for Near-Infrared Detection
Applications
Ahmed Elsharabasy, Mohamed Bakr, M. Jamal Deen
McMaster University (Canada)
We introduce a novel design for a gold nanoantenna array. The nanoantenna consists of an elliptical aperture
etched out from a rectangle. A less-than-half elliptical patch is placed inside the aperture. The dimensions
are properly selected such that two symmetrical small gaps are created where the electric field intensity has
a significant enhancement at the same resonance frequency within the NIR for both orthogonal polarizations.
The new design offers an improved performance for IR detection and applications.
P14: Feed interactions in metamaterial diplexers and radomes
Yiannis Vardaxoglou
Loughborough University (United Kingdom)
This paper will review some of the complex antenna feed interactions with single and double arrays in a
diplexer environment. Simulations will be shown from an in house MoM/spectral composition FSS code and
from EMPIRE XCcel Finite-Difference Time-Domain (FDTD) commercial software of IMST. The effects of
finite array sizes will be discussed in relation to the internal relfections and bounced rays.
P15: Hybrid plasmonic directional coupler switches and modulators
Dimitrios C. Zografopoulos1 , Mohamed Swillam2 , Lamees Shahada3 , Romeo Beccherelli1
1
Consiglio Nazionale delle Ricerche (Italy), 2 The American University in Cairo (Egypt), 3 Qatar University
(Qatar)
The design of a hybrid plasmonic modulator based on directional couplers enhanced with a layer of electrooptic polymer is presented. The modulator shows very broad operating window with low crosstalk values and
very small footprint with respect to similar couplers and switches of the silicon photonics platform.
P16: Photonic Analog of Chern Insulators
Hsun-Chi Chan, Ta-Chun Lin, Guang-Yu Guo
National Taiwan University (Taiwan)
We show that a 2D square lattice photonic crystal system has a nonzero gap Chern number by breaking timereversal symmetry. By bulk-edge correspondence, this means that the system has a nontrivial topological
surface state. We also perform a numerical simulation demonstrating the one-way properties of the system.
P17: Optimal Ultra-wide Spatial-Spectral Windows for Hyperentangled Two-photon Emission
Salem F. Hegazy1 , Jala El-Azab1 , Y. A. Badr1 , Salah Sabry Obayya2
1
Cairo University (Egypt), 2 Zewail City of Science and Technology (Egypt)
While being optimally compensated for spatial phase variations, the two-photon state produced by the twocrystal emission exhibits spatial and spectral decoherence off the central emission modes. In this paper,
we present an experimentally convenient method to optimize the ultra-wide spatial and spectral windows,
allowing the minimum spatial-spectral decoherence for a required two-photon flux.
P18: Modeling of optical gain in Ge-based two dimensional structures
Marta Gladysiewicz, Herbert Maczko, Robert Kudrawiec
Wroclaw University of Technology (Poland)
The 8-band kp Hamiltonian is applied to calculate the electronic band structure and the optical gain for Ge1xSnx/Ge quantum wells (QW) grown on Ge substrate. Sn-related changes in the electronic band structure of
Ge1-xSnx alloy are modeled according to recent ab-inito calculations and the strain-related modification in
the electronic band structure are included according Bir-Pikus theory.
P19: Plasmonics enhanced ultrafast laser nanosurgery: Fundamentals and applications in nanomedecine
Michel Meunier
Polytechnique Montreal (Canada)
Recent developments of the fundamentals and applications of nanoplasmonics enhanced ultrafast laser nanosurgery of living cells is presented. Modeling and experiments were developed to understand the basic
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phenomena occurring during ultrafast laser irradiation of plasmonics nanostructures. Applications of laser
optoporation and transfection of cells in various field of nanomedecine is discussed. The technique has been
successfully used to locally stimulate neurons.
P20: Near-field optical response of gold gap nanoantennas
Michele Celebrano1 , Milena Baselli1 , Giovanni Pellegrini1 , Xiaofei Wu2 , Bert Hecht2 , Lamberto Duo1 ,
Marco Finazzi1 , Paolo Biagioni1
1
Politecnico di Milano (Italy), 2 University of Bayreuth (Germany)
The near-field optical response of highly pure single-crystal gold gap nanoantennas was analyzed by means
of near-field aperture probes. Due to the interference phenomena occurring in the near field of the nanoantennas, both the complex response of the dipolar oscillator associated with the plasmon resonance could be
observed. The near-field optical response of the gap antennas is found to diverge from that of single gold
nanorods and a possible model to describe this behavior is proposed.
P21: Anomalous spectral shift of near- and far-field plasmonic resonances in nano-gaps
Anna Lombardi1 , Angela Demetriadou2 , Lee Weller1 , Felix Benz1 , Rohit Chikkaraddy1 , Patrick Andrae1 ,
Javier Aizpurua3 , Jeremy Baumberg1
1
Cambridge University (United Kingdom), 2 Imperial College London (United Kingdom), 3 DIPC (Spain)
The control and tuning of near-field and far-field responses in plasmonic nanostructures represents a crucial
aspect in the design of optimized platforms for field-enhanced spectroscopy. We develop a widely tuneable
optical technique to probe the near-field resonances within individual plasmonic structures and to directly
compare it to the corresponding far-field response.
P22: The Spectral Phase and Temporal Shape of Femtosecond Laser Pulses in the Nearfield of Plasmonic Nanostructures
Richard Ciesielski1 , Tobia Mancabelli1 , Jurgen Kraus2 , Alberto Comin1 , Sebastian Gunther2 , Achim
Hartschuh1
1
Ludwig-Maximilians-University (Germany), 2 Technische Universitat Munchen (Germany)
We show that the spectral phase of the light field near a plasmonic nanostructure, induced by a laser pulse,
is substantially different from the phase at its surface. We propose to use external materials as local probes
instead of the second harmonic light generated at the surface of thestructure to characterize the pulse length
in the nearfields. In a proof-of-principle experiment, graphene’s near-degenerate four-wave mixing is used to
demonstrate the effect on resonant gold nanorods.
P23: Plasmonic Pickup Head with Dual Wavelength Operations
Kai Hao Chang, Po Tsung Lee
National Chiao Tung University (Taiwan)
We propose and design plasmonic lens with circular nanoslits surrounded by circular grooves as plasmonic
pickup head to achieve two focal lengths by dual wavelength operations. Two focal planes at 650nm and
780nm working wavelengths are measured at 375nm and 1020nm height above the plasmonic pickup head
respectively.
P24: Identifying Microwave Magnetic Resonance in Chiral Elements for Creation of Controlled Matched Absorbing Metastructures
Galina Kraftmakher, Valery Butylkin, Yuri Kazantsev, Valery Mal’tsev, Yuri Temirov
Kotelnikov Institute of Radioengineering and Electronics RAS (Russia)
It has been suggested a method for identifying and separating magnetic and electric microwave resonance responses of chiral conductive elements through reflection. It has been experimentally investigated and
numerically confirmed that magnetic and electric resonances in double split ring show dramatically different
resonance curves of reflection. These distinctions allow to identifying the magnetic resonance and using for
controlled broadband matching of absorbers by no traditional quarter-wave effects.
P25: Ultrathin metasurface carpet cloak
Bakhtiyar Orazbayev1 , Nasim Mohammadi Estakhri2 , Miguel Beruete1 , Andrea Alu2
1
Public University of Navarre (Spain), 2 The University of Texas at Austin (USA)
We demonstrate the design of an ultrathin carpet cloak based on a metasurface with ring resonators. In
order to obtain the cloaking performance, the phase of the scattered wave along the edge of the bump is
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manipulated by an array of closed ring resonators. This allows to hide a triangular surface bump placed on a
flat ground plane. The designed cloak is numerically analyzed at the operation frequency and demonstrates
a good performance in both near-field and far-field.
P26: A New Metamaterial-based C-band Electromagnetic Cloak
Sikder Sunbeam Islam, Mohammad Rashed Iqbal Faruque, Mohammad Tariqul Islam
Universiti Kebangsaan Malaysia (Malaysia)
A new metamaterial-based wideband electromagnetic cloak is being introduced in this study. The metamaterial unit cell shows sharp resonance in the C-band where the effective permittivity and permeability curve
exhibits negative and positive characteristics consecutively. The metamaterial unit cell was then applied in designing a square-shaped electromagnetic cloak. The cloak operates in the C-band and hides a metal cylinder
electromagnetically. The experimental results were provided as well for the metamaterial and the cloak.
P27: Random Transformation Optics
Gael Favraud, Juan Sebastian Totero Gongora, Andrea Fratalocchi
KAUST (Saudi Arabia)
Random metamaterials based on disordered structures provide promising features such as broadband energy
harvesting. Through transformation optics, an equivalence can be established between geometric structures
and materials with special electromagnetic properties. However, a major problem is the determination of appropriate transformations for complex geometries. We propose a method to determine such transformations
and show that this approach gives rise to a new class of metastructures with unconventional properties, which
can open a new manifold of nanoptics applications.
P28: Implementation of Remote Mach-Zehnder Switch by Illusion Optics
Hamed Reza Shoorian1 , Reza Rezapour1 , David Margousi2
1
University of Torbat-e-Heydarieh (Iran), 2 Azad University of Shahre-Rey (Iran)
Based on illusion optics theory, in this paper a new method is introduced for remote beam manipulating and
implementing a Mach-Zehnder switch. In the presence of an illusion device, the effective refractive index of a
certain length of one of MZ arm is remotely changed to produce 180 degree phase differences to the other
arm and results in destructive interference giving OFF state. When the illusion device is removed, constructive
interference between both arms results in the ON state.
P29: Numerical modeling of time-domain cloaking with metamaterials
Yunqing Huang1 , Jichun Li2 , Wei Yang1
1
Xiangtan University (China), 2 University of Nevada Las Vegas (USA)
In this talk, we will present some of our recent works on mathematical analysis and finite element modeling of
cloaking devices constructed by metamaterials. Our talk will focus on the cloaking simulation in time-domain.
P30: A level-set based topology optimisation of cloaking devices with the boundary element method
Kenta Nakamoto, Hiroshi Isakari, Toru Takahashi, Toshiro Matsumoto
Nagoya University (Japan)
A level-set based topology optimisation method for cloaking devices is presented using the boundary element
method (BEM). An evolution equation with a topological derivative terme, which is evaluated with the solutions
by BEM, is solved in the updating process of the distribution of the level-set function. The effectiveness of the
approach is demonstrated through some numerical examples for cloaking devices.
P31: Multi-physics simulations for 3D isotropic transformation optics
Dongheok Shin, Kyoungsik Kim
Yonsei University (Korea)
We used multi-physics simulation to design and verify 3D isotropic transformation optical device. Previously
we proposed design method for 3 dimensional transformation optical medium using structure-wave multiphysics simulation. For very small wavelength compare to the entire device, wave simulation is grossly inefficient. So we took another multi-physics simulation with structure and ray optics to verify its usefulness.
P32: Design of a THz-MEMS Frequency Selective Surface for Structural Health Monitoring
Joao Pedro Pavia1 , W. J. Otter2 , S. Lucyszyn2 , M. A. Ribeiro1
1
University Institute of Lisbon (Portugal), 2 Imperial College London (United Kingdom)
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This paper characterizes the relationship between applied force and reectance/transmittance of a terahertz
frequency selective surface for use as a sensor in structural healthmonitoring. Numerical modelling of both
the mechanical and electromagnetics, solving the elasticityequation and Maxwell’s equations, respectively,
has been undertaken for a 3 layer device. The unit cell comprises of a metal cross wire embedded within a
(hard) silicon substrate, interleavedwith stacks of (soft) low density polyethylene.
P33: THz sensing with FSS at oblique incidence
Pablo Rodriguez-Ulibarri1 , Sergei Alexandrovich Kuznetsov2 , Miguel Beruete1
1
Public University of Navarra (Spain), 2 Novosibirsk State University (Russia)
In this work a cross dipole based frequency selective surface is proposed for sensing applications in the
terahertz regime. Characterization under normal and oblique incidence is provided for both TM and TE polarization. For TM polarization, wide angle operation is possible in terms of sensing capabilities. While the
sensitivity is maintained the width of the fundamental resonance becomes narrower, leading to more selective sensors. For TE polarization, the fundamental resonance experiences redshift with the angle of incidence.
P34: Off-Axis Beaming 3D-Printed Bull’s-Eye Antenna
Unai Beaskoetxea Gartzia1 , Stefano Maci2 , Miguel Navarro-Cia3 , Miguel Beruete1
1
Public University Of Navarre (Spain), 2 University of Siena (Italy), 3 University of Birmingham (United Kingdom)
We present a theoretical analysis, along with numerical and experimental results of an off-axis beaming Bull’sEye antenna working at 96 GHz. The prototype is fabricated by 3D printing stereolitography and then coppercoated, resulting in a 75percent weight reduction compared to a fully metal fabricated design. Interesting
applications in the fields of microsatellites, unmanned aerial vehicles or point-to-point communications are
envisioned.
P35: Frequency Selective Surfaces to improve the performance of systems with dual-band antennas
Elidiane Mirella Farias Fernandes, Mauricio Weber Benjo da Silva, Leni Joaquim de Matos, Andres
Pablo Lopez Barbero
Federal Fluminense University (Brazil)
This paper proposes the design of a frequency selective surface formed by Jerusalem crossed grids to improve the performance of systems with dual-band antennas, operating in 2.4 GHz and 5.8 GHz. The analysis
and the results of the calculated FSS structure are presented.
P36: Frequency Reconfigurable Antenna with Metamaterial Electromagnetic Band Gap (EBG) structures
Raimi Dewan1 , Mohamad Kamal A. Rahim1 , Mohamad Rijal Hamid1 , Mohd Ezwan Jalil1 , Huda A. Majid2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Tun Hussein Onn Malaysia (Malaysia)
A metamaterial of Electromagnetic Band Gap (EBG) incorporated to a wideband antenna for frequency reconfigurability is proposed. The EBG consists of two identical unit cells that provides multiple band gaps at
1.88-1.94 GHz, 2.25-2.44 GHz, 2.67-2.94 GHz, 3.52-3.54 GHz, and 5.04-5.70 GHz with different EBG configurations. The antenna is then incorporated with EBG. The corresponding incorporated structure successfully
achieve various reconfigurable center frequencies at 1.60 GHz, 1.91 GHz, 2.41 GHz, 3.26 GHz, 2.87 GHz,
5.21 GHz, and 5.54 GHz.
P37: 10.7 GHz Switchable Metamaterial Absorber/ Reflector for X-band Applications
Mohammed M. Gajibo, Mohamad Kamal A. Rahim, Noor Asniza Murad, Osman Ayop, Mohamad Rijal
Hamid, Huda A. Majid
Universiti Teknologi Malaysia (Malaysia)
A double layer structure consisting of a Metamaterial (MTM) absorber and an artificial magnetic conductor
(AMC) reflector is presented in this report. An FR4 substrate was used and the incidental wave angles were
varied from 0o to 85o. A peak absorption of 99.99 percent was achieved at 10.7GHz by the absorber for both
TE and TM polarization incident waves. On the other side close to 80 percent peak reflection was achieved
at same frequency (10.7GHz) by the AMC reflector.
P38: Alternative Approach to Miniaturize an AMC Structure
Nebil Kristou1 , Jean-Frrançois Pintos1 , Kourosh Mahjoubi2
1
CEA-LETI (France), 2 Universite de Rennes 1 (France)
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This paper proposes an alternative approach to modify the behavior of an Artificial Magnetic Conductor
(AMC), through interconnected meandered lines located behind the ground plane using of offset metallized
vias. The novel design allows to get high-level miniaturization factor for AMC unit cell.
P39: Modeling of periodically-structured fiber-reinforced laminates with multiple fibers absent
Zicheng Liu1 , Changyou Li2 , Dominique Lesselier1 , Yu Zhong3
1
Universite Paris Saclay (France), 2 Singapore University ofTechnology and Design (Singapore), 3 A*STAR
(Singapore)
Electromagnetic modeling of periodically-structured, fiber-reinforced laminateswith some fibers missing is
investigated, this applying as well to similarly disorganized photoniccrystals. Parallel fibers are periodically
positioned in a layer between two half-spaces. Absentfibers destroy the periodicity. The supercell concept involving an auxiliary periodic structureand first-order approximations calling for the Green function of the sound
structure providecomplementary solutions, as it will be illustrated by comprehensive numerical simulations.
P40: Disordered metamaterials achieve broadband enhancement of quantum effciency of photoelectrochemical devices for water splitting
Marcella Bonifazi, Hui-Chun Fu, Jr Hau He, Andrea Fratalocchi
KAUST (Saudi Arabia)
By Finite-Dierence Time-Domain (FDTD) simulations and experiments, we study a new surface nanostructuring process for photoelectrochemical devices for the production of hydrogen from water splitting. Our material
is based on suitably disordered micro-structures that achieve a broadband reflectivity reduction across the
visible and near infrared, leading to broadband optical quantum efficiencies (QEs) up to 95percent.
P41: Lattice localized plasmons for fluorescence immunosensing
Stefan Fossati, Simone Hageneder, Martin Bauch, Wolfgang Knoll, Jakub Dostalek
Austrian Institute of Technology (Austria)
The detection of chemical and biological analytes is important in numerous fields including medical diagnostics, environmental science and food safety. Fluorescence spectroscopy provides an established means
for such sensitive analysis by the utilization of fluorescent labels. Here, a method for the enhancement of
detected fluorescence signal by collective localized plasmons supported by regular arrays of gold capped
nanopillars is studied and a reader with epifluorescent readout geometry is suggested.
P42: Responsive hydrogel-metallic nanostructures for plasmonic biosensing
Nestor Gisbert Quilis1 , Peter Kogler2 , Christian Petri2 , Ulrich Jonas2 , Wolfgang Knoll1 , Jakub Dostalek1
1
AIT-Austrian Institute of Technology GmbH (Austria), 2 University of Siegen (Germany)
Hybrid materials composed of photo-crosslinkable thermo-responsive hydrogel and metallic nanostructures
are presented. These materials are prepared by using UV laser interference lithography. The responsive
hydrogel serves as a binding matrix that is functionalized with ligand molecules for selective capture of target
analyte at a plasmonic hotspot. Such structures are promising for biosensors relying on surface plasmonenhanced fluorescence detection.
P43: Temporally resolved fourwave mixing in a photonic crystal switch
Per Lunnemann1 , Pierre Colman2 , Yi Yu1 , Jesper Mork3
1
Technical university of Denmark (Denmark), 2 Universite Paris Sud (France), 3 Technical University of Denmark (Denmark)
We present a detailed experimental analysis of temporally resolved fourwave mixing in a photonic crystal
cavity based optical switch. The origin of the parametric gain is analysed a model based on temporally coupled
mode theory. The upper limit of the parametric gain is experimentally investigated and discussed.
P44: Polariton Stirring and Storage of Quantized Vortices
Nicolas D. Sangouard1 , Thomas Boulier1 , Emiliano Cancellieri2 , Quentin Glorieux1 , David M. Whittaker2 ,
Alexey V. Kavokin3 , Elisabeth Giacobino1 , Alberto Bramati1
1
Laboratoire Kastler Brossel (France), 2 University of Sheffield (United Kingdom), 3 University of Southampton
(United Kingdom)
We report the experimental investigation and theoretical modeling of a rotating polariton superfluid. Four
coherent lasers arranged in a square resonantly create four polariton populations propagating inwards. Controlling their direction allows injecting optical angular momentum. In the linear regime, optical singularities are
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visible. In the superfluid regime, interferences disappear and only same sign vortices remain. Remarkably,
the number of vortices inside the superfluid region can be controlled by controlling the angular momentum
injected by the pumps.
P45: Strongly subwavelength cavities in multilayer hyperbolic metamaterials based on nanometric
steps
Fabio Vaianella, Bjorn Maes
University of Mons (Belgium)
Using well-known hyperbolic multilayer metamaterials, we show a new and very simple design of deeply
subwavelength cavities based on nanoscale steps between the layers. We demonstrate that the transmission
in these structures is similar to a waveguide side-coupled with a classical cavity. Subsequently, by judiciously
tuning the distance between two of these nanosteps one can create very tight transmission resonances.
P46: Metamaterial Behavior of Hyperbolic Bimetallic Nanostructures
Silvia Cortes-Lopez, Felipe Perez-Rodriguez
Benemerita Universidad Autonoma de Puebla (Mexico)
The s- and p-polarization reflectivity spectra for a nanostructure composed of alternating Ag and Al layers
have been calculated by using an average permittivity tensor in thelong wavelength limit. A pass band of
negative refraction in the p-polarization reflectivity for the bimetallic hyperbolic metamaterial, just above the
lower plasma frequency, was found.
P47: Dynamic Metamaterial based on the Graphene Split Ring High-Q Fano-resonnator for Terahertz
Sensing Applications
Lin Wang, Xiaoshuang Chen, Wei Lu
Chinese Academy of Sciences (China)
Structured plasmonic mematerials offer a new way to design functionalized optical and electrical components.
Here, we theoretically investigated the electrical active split ring resonators based on graphene metamaterials.
Fano resonance and quadrupole resonance are excited at the crossed directions of electric polarization. Such
metamaterials could facilitate the designing of active modulation, and slow light effect for terahertz wave.
Potential outcomes such as higher sensing ability and higher-Q resonances at terahertz frequencies are
demonstrated through numerical simulations with realistic parameters.
P48: Study of Near and Far Fields of a Super-Gaussian Beam on a Step Discontinues Interface using
FFT-BPM
Adel Shaaban1 , Lotfi R. Gomaa2 , Mohamed Farhat O. Hameed1 , Salah Sabry Obayya1
1
Zewail City of Science and Technology (Egypt), 2 Shoubra-Banha University (Egypt)
In this analysis we present for the first time, the super-Gaussian field with oblique incident at critical angle
on a planar dielectric interface using fast Fourier transform based beam propagation method (FFT-BPM).
The lateral field shift is also investigated. The obtained results are in accordance with the theory of the nonspecular phenomena of the electromagnetic field interaction at the same situation.
P49: Analysis of Lorentz Beam Propagation at Critical Angle Using Accelerated Beam Propagation
Method
Adel Shaaban, Mohamed Farhat O. Hameed, Mahmoud Sayed, Hassan Saleh, Lotfi Gomaa, Salah
Sabry Obayya
Zewail City of Science and Technology (Egypt)
In this paper, the characteristics of an incident monochromatic Lorentz light beam at sharp critical angle
are investigated and analyzed. The numerical results are obtained using fast Fourier transform based beam
propagation method (FFT-BPM). Further, the FFT-BPM is implemented on a graphical processing unit (GPU)
platform using CUDA-C program to decrease the execution time significantly.
16:40 - 19:00 — Malaga
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Session 1A28
SP4. Plasmonics and Nanophotonics Based on Graphene and Related 2D
Materials
Organized by: Mohamed Farhat and Pai-Yen Chen
Chaired by: Mohamed Farhat and Pai-Yen Chen
16:40 : Invited talk
Surface acoustic wave-assisted plasmonics in graphene
Jorge Pedros1 , Jurgen Schiefele2 , Alberto Bosca1 , Javier Martinez1 , Fernando Sols3 , Francisco Guinea4 ,
Fernando Calle1
1
Universidad Politecnica de Madrid (Spain), 2 CSIC (Spain), 3 Universidad Complutense de Madrid (Spain),
4
IMDEA Nanociencia (Spain)
A novel scheme for the far-field generation of propagating plasmons in unpatterned graphene structures
mediated by a surface acoustic wave (SAW) has been demonstrated. The SAW-induced dynamic modulation
of the graphene surface creates a diffraction grating which allows to excite the long-lived phonon-like branch
of the hybridized graphene/piezoelectric plasmon-phonon dispersion with infrared laser light.
17:00 : Invited talk
Ultrafast Plasmon Emission and Hot Carrier Dynamics in Photoexcited Graphene
Joachim Michael Hamm1 , A. F. Page1 , J. Bravo-Abad2 , F. J. Garcia-Vidal2 , O. Hess1
1
Imperial College London (United Kingdom), 2 Universidad Autonoma de Madrid (Spain)
Owing to their overlap in energy/momentum space plasmons in pho- toexcited graphene can become amplified or spontaneously emitted by decay of electron/hole excitations. Based on Boltzmann equations for
the carrier, plasmon and phonon populations we investigate the nonequilibrium relaxation dynamics after
femtosecond excitation and show that plasmon emission drives the decay of population inversion on 100-fs
scales.
17:20 : Graphene Plasmonics for Controlled Manipulation of Sub 2 nm Nanoparticles
Mohammad Danesh1 , Zhengtong Liu2 , Cheng-Wei Qiu3
1
A*STAR (Singapore), 2 Institute of High Performance Computing (Singapore), 3 National University of Singapore (Singapore)
Accurate control over the position of nanoparticles is of great interest in future nanotechnology applications.
However, exact control over the position of sub 2 nm particles is particularly difficult and faces many challenges. In this work we propose a novel and electrically controllable method to overcome this challenge by
taking advantage of the Dirac plasmons in a graphene sheet to create tunable optical potentials and study
the propgation of nanoparticles in this system using Langevin dynamics.
17:35 : Keynote talk
Nanoplasmonics in 2D and atomic-scale materials
Javier Garcia de Abajo
ICFO (Spain)
We will review different strategies and recent advances in the achievement of strong optical tunability in the
vis-NIR using plasmons of atomic-scale materials, and in particular 2D crystals and graphene, as well as their
potential application for quantum optics, light manipulation, and sensing.
18:05 : Invited talk
Graphene-based van-der-Waals heterostructure plasmonic metamaterials for terahertz device applications
Taiichi Otsuji1 , Dmitry Svintsov2 , Alexander Dubinov3 , Deepika Yadav1 , Stephane Boubanga Tombet1 ,
Takayuki Watanabe1 , Akira Satou1 , Victor Ryzhii1 , Vladimir Mitin4 , Michael Shur5
1
Tohoku University (Japan), 2 Moscow Inst. of Physics and Technology (Russia), 3 Inst. of Microstructure Physics (Russia), 4 University at Buffalo (USA), 5 Rensselaer Polytechnic Institute (USA)
This paper reviews recent advances in the research of graphene-based van der Waals heterostructure plasmonic metamaterials for terahertz device applications. A double graphene layer heterostructure consisting of
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an atomically thin tunnel barrier layer sandwiched between two graphene electrodes works for active metamaterials in the terahertz electromagnetic frequency range.
18:25 : Invited talk
Hybrid Graphene Metasurfaces to Control Electromagnetic Radiation
Christos Argyropoulos
University of Nebraska-Lincoln (USA)
Graphene cannot efficiently interact with light due to its extremely thin nature. We will demonstrate ways to
hybridize graphene with all-dielectric metasurfaces in order to increase the coupling between the far-field
radiation and graphene. In addition, we will introduce metasurfaces with resonating elements made only of
graphene, designed based on the appropriate patterning of the graphene monolayer’s shape. The proposed
hybrid graphene metasurfaces can lead to the design of electro-optical modulators and THz non-reciprocal
devices, operating as magnetic-free isolators.
18:45 : Ultrasensitive PT-Symmetric Graphene Quantum-Capacitance Sensors
Pai-Yen Chen
Wayne State University (USA)
We introduce a new concept of parity-time (PT) symmetric radio-frequency (RF) circuit capable of sensing
tiny variations in reactive power caused by changes in physical, biological, and environmental events. We
demonstrate with a practical graphene quantum-capacitance sensor that a PT-symmetric circuit topology
may offer significantly enhanced sensitivity compared to conventional passive RF sensors. The proposed
PT-sensors may impact not only extraordinary manipulation of RF signals, but also practical sensing and
detection applications.
16:40 - 19:00 — Ronda
Session 1A29
SP14. Nano and Mesoscopic Optics in Colloidal and Granular Systems
Organized by: Aristide Dogariu and Juan J. Saenz
Chaired by: Aristide Dogariu and Juan J. Saenz
16:40 : Keynote talk
Casimir-like forces between particles under fluctuating optical fields
Juan Jose Saenz
Donostia International Physics Center DIPC (Spain)
We review some basic concepts related to the optical forces on small (subwavelength) particles, focusing on
the interplay between scattering asymmetry and momentum transfer. We show that artificially created random
fluctuating light fields can be used to induce and control isotropic Casimir-like forces between small colloidal
particles.
17:10 : Invited talk
Colloids manipulation with optical radiation
Sergey Sukhov, Colin Constant, Veerachart Kajorndejnukul, Aristide Dogariu
University of Central Florida (USA)
We explore the nature of forces induced by electromagnetic fields on colloidal systems. Particle-field coupling
and particle-particle interactions are employed for manipulation of multiple interacting particles. Experiments
for controlling diffusive and transport properties of disordered systems are discussed.
17:30 : Invited talk
Controlling Active Crowds with Random Light Fields
E. Pince1 , S. K. P. Velu1 , A. Callegari1 , P. Elahi1 , S. Gigan2 , Giorgio Volpe3
1
Bilkent University (Turkey), 2 University Pierre et Marie Curie (France), 3 University College London (United
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Kingdom)
Many living active-matter systems, such as schools of fish, flocking birds and bacterial colonies, exhibit collective and dynamic behaviors that are sensitive to changes in their environmental conditions. Here, we
show that an active matter system of colloids in a bacterial bath switches between two long-term behaviors,
i.e. gathering and dispersal of individuals, in response to the statistical properties of the underlying optical
potential.
17:50 : Invited talk
Brownian motion of self-assembled colloid structures in optical fields
Philip Jones1 , Kiran Govind1 , Nicholas Tidy1 , Xiang Han2
1
University College London (United Kingdom), 2 National University of Defense Technology (China)
We present a study of particle structures that are formed by optical binding interactions in counter-propagating
beam optical traps, and their subsequent Brownian dynamics. Using digital video microscopy we are able to
track particle motion and measure the correlations in position fluctuations. The particle dynamics can be
explained by considering the normal modes of a system of masses connected by linear springs and subject
to thermal noise, and an analogy is made with the motion of extended polymer chains.
18:10 : Invited talk
Diffussion of an electric dipole in a fluctuating random electromagnetic field
Manuel I. Marques
Universidad Autonoma de Madrid (Spain)
The dynamics of an electric dipole in a light field consisting on electromagnetic plane waves with polarizations
randomly distributed and fluctuating phases is theoretically analyzed. The expression for the optical random
force fluctuations, the optical drag force, the equilibrium kinetic energy and the diffusion constant are derived.
Numerical simulations for the dynamics of a resonant dipole, initially at rest, show the crossover between the
superdiffusive and the diffusive regimens theoretically predicted.
18:30 : A spectral model for the speckle temporal coherence
Gabriel Soriano, Myriam Zerrad, Claude Amra
Aix-Marseille University (France)
We present a simple model for the spectrally-resolved (or multispectral) vector transmission matrix for the
scattering of light from highly scattering media. It is used to numer- ically derive the spatial distribution of
the coherence time in the speckle pattern for an incident light of given temporal coherence and state of
polarization.
18:45 : Experimental verification of mean path length invariance in multiple light scattering
Romolo Savo1 , Romain Pierrat2 , Remi Carminati2 , Stefan Rotter3 , Sylvain Gigan1
1
UPMC (France), 2 ESPCI ParisTech (France), 3 Vienna University of Technology (Austria)
A surprising invariance property in transport phenomena has recently been discovered, according to which
the mean trajectory length inside a disordered medium is entirely independent of the medium’s mean free
path. In spite of the general applicability of this result, no observation of this invariance has been reported
so far. Here we present measurements for light propagating in multiple scattering media by which we experimentally verify the invariance of the mean path length for wave propagation.
16:40 - 19:20 — Nerja
Session 1A30
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
16:40 : Invited talk
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Manipulation of Molecules adsorbed on Metal Nanostructures under Plasmon Excitation
Kei Murakoshi
Hokkaido University (Japan)
In-situ surface-enhanced Raman scattering spectroscopy was used for the quantitative characterization of
the number of molecules in highly localized electromagnetic fields on the surface of metal nanostructure
under electrochemical potential control at room temperature. Increment in the Raman scattering intensity
was correlated with the change in the surface diffusion behaviour of the molecules adsorbed on the metal
nanostructure.
17:00 : Invited talk
Nano-optical Chemical and Structural Classification of Nucleic Acids via Label-free Surface-enhanced
Raman Scattering Analysis
Judit Morla-Folch, P. Gisbert-Quilis, A. Torres, R. A. Alvarez-Puebla, Luca Guerrini
Medcom Advance SA (Spain)
We describe a fast and affordable high-throughput screening direct SERS method for gaining detailed genomic information on nucleic acids (DNA and RNA) and for the characterization and quantitative recognition of
DNA interactions with exogenous agents.
17:20 : Invited talk
Optical Activity in Organic-Silver Hybrid Nanoparticles
Cecilia Noguez, Francisco Hidalgo
Universidad Nacional Autonoma de Mexico (Mexico)
The optical activity in organic-metal hybrid nanoparticles (NP) is studied using a time-perturbed density functional theory that determines the electronic circular dichroism (CD) of chiral systems. The effects of the
number of organic molecules, their chiral nature, and different chiral arrangements of they are analyzed in
detail. Results allow identify the origin and consequences of the induced chirality of the arrangements in
comparison with the intrinsic chirality of ligands, and when both act simultaneously.
17:40 : Invited talk
Self-aligned fabrication and spectroscopy of coupled hybrid antenna-nanoemitter-structures
Annika Brauer, Regina Jager, Julia Fulmes, Kerstin Scherzinger, Sebastian Jager, Sven Zur OvenKrockhaus, Dominik Gollmer, Alfred Meixner, Dieter Kern, Monika Fleischer
Eberhard Karls Universitat Tubingen (Germany)
Plasmonic nanostructures act as optical nanoantennas with shape- and size-dependent plasmon resonances.
By positioning individual nano-emitters in the high near-field regions of such antennas, the emitter properties
can be strongly modified. Techniques for the self-aligned fabrication of individual hybrid antenna-emitterstructures are demonstrated, and the optical characteristics of single or few semiconductor quantum dots
coupled to specifically designed metallic nanoantennas are evaluated.
18:00 : Invited talk
The Active Plasmonics Paradigm
Roberto Caputo1 , Luciano De Sio2 , Ugo Cataldi3 , Thomas Maurer4 , Renaud Bachelot4
1
University of Calabria (Italy), 2 Beam Engineering for Advanced Measurements Company (USA), 3 University
of Geneva (Switzerland), 4 Universite de Technologie de Troyes (France)
Remarkable properties are devised in systems exploiting plasmonic functionalities. After years of research in
this direction, great results have been achieved in Photonics, Sensoristics, Bio-systems, Theragnostics and
Metamaterials. Despite the awesome functionality reported, these systems comprise an intrinsic limit in their
single use applicability. The active plasmonics paradigm predicts, the presence of a tunable medium thus
enabling the tunability of aforementioned functionalities.
18:20 : Invited talk
Recent advances and perspectives of magnetoplasmonic metamaterials
Paolo Vavassori
CIC nanoGUNE (Spain)
The rapidly developing field of magnetoplasmonics merges concepts from plasmonics and magnetism to
realize novel and unexpected phenomena and functionalities for the manipulation of light at the nanoscale
owing to the intertwined optical and magneto-optical properties. This talk will cover recent advances in the
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field as well as applications of such multifunctional optical metamaterials to variety of emerging technologies
are presented as an example of their broad scientific and technological perspectives.
18:40 : Invited talk
Fano resonance in self-organized embedded metallic nanoparticle gratings and application as optical
security features
Said Bakhti, Giorgio Baraldi, Zeming Liu, Nathalie Destouches
Universite Lyon (France)
We demonstrate that the singular colored effects of laser induced self-organized metallic nanoparticle gratings
embedded in a high index film result from the excitation of Fano-like resonances. The latter originate from
the coupling of the localized surface plasmon mode of metallic nanoparticles and a waveguide mode. They
create strongly asymmetric spectral absorber whose color in reflection can be tuned differently on both sides
of samples.
19:00 : Invited talk
Optically active nanomaterials
Yurii K. Gun’ko1 , Finn-Purcell Milton1 , Joseph E. Govan1 , Alexander Loudon1 , Olan Cleary1 , Maria
Mukhina2 , Alexander Baranov2 , Anatoly Fedorov2
1
Trinity College Dublin (Ireland), 2 ITMO University (Russia)
The main goal of our research is to develop new types of technologically important optically active nanomaterials, study their properties and explore their applications. The utilisation of chiral stabilisers allowed
the preparation of new water soluble white emitting quantum dots, rods, nano-tetrapods and nano-sheets,
which demonstrated circular dichroism in the band-edge region of the spectrum. Biological testing of chiral
nanotetrapods displayed a chiral bias for an uptake of the D- enantiomer stabilised nano-tetrapods by cancer
cells.
16:40 - 17:55 — Antequera
Session 1A31
SP24. Nanophotonics and plasmonics for information applications
Organized by: Kevin Vynck
Chaired by: Haitao Liu
16:40 : Invited talk
Overcoming Quenching in Plasmonic Nanoantennas
Christophe Sauvan
Universite Paris-Saclay (France)
We have developed a self-consistent electromagnetic theory of the link between light-matter interactions and
optical resonances. The theory that relies on the concept of quasinormal modes is capable of accurately
handling any photonic or plasmonic nanoresonator. We have used the modal formalism to analyze the mechanisms of spontaneous emission in plasmonic nanoantennas and to unravel the interplay between the
decay into the antenna mode and the quenching. We provide guidelines to design plasmonic nanoantennas
able to overcome quenching.
17:00 : Spatiotemporal 3D pulse shaping using phase-shifted Bragg gratings
Nikita V. Golovastikov, Dmitry A. Bykov, Leonid L. Doskolovich
Samara State Aerospace University (Russia)
We propose a simple theoretical model that analytically describes spatiotemporal transformations of a threedimensional optical pulse diffracted on a phase-shifted Bragg grating (PSBG). The diffraction of the pulse is
described in terms of a linear system with pulse’s transformations determined by the system’s transfer function
and impulse response. It is theoretically demonstrated and numerically verified that a PSBG can perform
complex pulse transformations, such as simultaneous spatial and temporal differentiation of the optical pulse
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envelope.
17:15 : Invited talk
Surface Plasmon Polariton Manipulation in Graphene Sheet Arrays
Bing Wang
Huazhong University of Science and Technology (China)
Surface plasmon polaritons (SPPs) propagation in graphene sheet array (GSA) consisting of periodic arrays
of spatially separated graphene sheets is investigated. The Talbot effect of SPPs is realized in the GSA when
the incident field has a few selected periods. Bloch oscillations can also be observed in GSAs as the chemical
potential of graphene undergoes a lateral gradient. By varying the lateral distribution of chemical potentials,
we demonstrate the SPP beam routing effects in the GSAs.
17:35 : Invited talk
Lithium-niobate-based micro-resonators
Guoquan Zhang, Fang Bo, Jie Wang, Jiao Cui, Yongfa Kong, Jingjun Xu
Nankai University (China)
We reported on our recent progresses on lithium-niobate-based micro-resonators, including the fabrication of
high quality monocrystalline or hybrid lithium niobate micro-resonators, the electro-optical or all-optical light
modulation, and the thermo-optically induced oscillations. The results show that high quality lithium-niobatebased micro-resonators are of excellent active light modulation capability and therefore have numerous potential applications in optical information process.
18:00 - 18:30 — Antequera
Session 1A32
GEN15. Transformational electromagnetics and cloaking
Chaired by: Bahram Djafari-Rouhani
18:00 : Low Profile Superstrate using Transformation Optics to modify Radiation Pattern of Antenna
Chetan Joshi, Anne Claire Lepage, Xavier Begaud
Universite Paris-Saclay (France)
A superstrate to modify the radiation pattern of a patch antenna designed using transformation optics method
is presented. At first, the transformation relations between the physical and virtual space are described. Then,
material parameters calculated from transformation optics method are used to design a three dimensional low
profile superstrate that reorients the radiation pattern in azimuthal plane.
18:15 : Wave Propagation in Complex Coordinates, Reflectionless Media and Localization
Christopher G. King, Simon Horsley, Thomas Philbin
University of Exeter (United Kingdom)
We derive conditions for planar permittivity profiles to exhibit perfect transmission with zero reflection, for
all angles of incidence. This is done through investigating the analytic continuation of the wave equation
into complex coordinates using the phase integral method. We then consider a family of disordered media
constructed using this method, showing that the real and imaginary parts of the permittivity can separately
exhibit random fluctuations, but if they are connected via a spatial Hilbert transform, the transmission remains
unity.
16:40 - 17:40 — Fuengirola
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Session 1A33
SP1. Active, Nonlinear and Reconfigurable Plasmonics and Metamaterials
Organized by: Christos Argyropoulos and Pai-Yen Chen
Chaired by: Christos Argyropoulos and Pai-Yen Chen
16:40 : Invited talk
Plasmonic Launchers for Quantitative Nonlinear and Quantum Plasmonics
Alexandre Baron1 , David R. Smith2 , Philippe Lalanne3
1
University of Bordeaux (France), 2 Duke University (USA), 3 Universite de Bordeaux (France)
Coupled electromagnetic fields and charge densities oscillating at optical frequencies along a metal interface
are surface modes called surface plasmon polaritons (SPPs). SPPs are quasi-particles that confine light
to subwavelength dimensions. We review our design and characterization philosophy to produce efficient
plasmonic launchers that are used for quantitative nonlinear and quantum plasmonics. These launchers can
be used to measure the nonlinearity of metals and to evidence the particle nature of SPPs.
17:00 : Invited talk
Nonlinear Reconfigurable All-Dielectric and Hybrid Nanoantennae
S. V. Makarov, A. E. Krasnok, D. A. Zuev, V. A. Milichko, I. S. Mukhin, Pavel A. Belov
ITMO University (Russia)
We present our recent results on femtosecond laser-assisted reconfiguration of all-dielectric and hybrid nanoantennae and metasurfaces. In particular, we propose a novel concept for ultrafast manipulation by scattering properties of an individual silicon nanoantenna with a magnetic dipole resonance by means of generation
of electron-hole plasma. In turn, all-optical precise reconfiguration of a hybrid Au/Si nanoantenna was achieved via selective laser-induced reshaping of a golden part, matching its electric resonance with magnetic and
electric resonances of a silicon part.
17:20 : Invited talk
Laser light generation in plasmonic crystals and metallic nanoparticles
J. Cuerda, F. Ruting, F. J. Garcia-Vidal, Jorge Bravo-Abad
Universidad Autonoma de Madrid (Spain)
We present our recent advances in the study of lasing action in plasmonic structures incorporating opticallypumped four-level gain media. We discuss two different classes of systems: plasmonic crystals supporting
extended surface resonances and core-shell metallic nanoparticles supporting localized surface plasmons
modes. The dynamics of the underlying gain-plasmon nonlinear interaction, as well as general strategies to
access optimal lasing characteristics, are addressed in each case.
17:40 - 19:15 — Fuengirola
Session 1A34
SP8. Metasurface and its application in optical devices
Organized by: Shuang Zhang, Jensen Li and Xianzhong Chen
Chaired by: Jensen Li and Xianzhong Chen
17:40 : Invited talk
Highly efficient decoupling-free surface plasmon meta-couplers
Wujiong Sun, Qiong He, Shulin Sun, Lei Zhou
Fudan University (China)
Surface plasmon polaritons (SPPs) have recently found numerous applications in photonics, but traditional
devices to excite them (such as grating and prism couplers) all suffer inherent low-efficiency issues, since
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the generated SPPs can decouple back to free space and the reflection at the device surface can never be
avoided.
18:00 : Invited talk
Metasurfaces for engineering of reflected light
Anders Pors, Sergey I. Bozhevolnyi
University of Southern Denmark (Denmark)
Gap surface plasmon-based metasurfaces, consisting of a subwavelength thin dielectric spacer sandwiched
between an optically thick metal film and an array of metal nanobricks, feature the crucial property of being
easy to fabricate, yet with the possibility to fully control the reflected light. In this talk we discuss the peculiar
optical properties of these metasurfaces, while demonstrating their great utility in a broad range of applications.
18:20 : Invited talk
Metasurface for helicity multiplexed broadband holograms
Xianzhong Chen1 , Dandan Wen1 , Fuyong Yue1 , Guixin Li2 , Guoxing Zheng2 , Kinlong Chan3 , Shumei
Chen3 , Ming Chen1 , King Fai Li3 , Polis Wing Han Wong4 , Kok Wai Cheah3 , Edwin Yue Bun Pun4 ,
Shuang Zhang2
1
Heriot-Watt University (United Kingdom), 2 University of Birmingham (United Kingdom), 3 Hong Kong Baptist
University (Hong Kong), 4 City University of Hong Kong (Hong Kong)
We experimentally demonstrate helicity multiplexed metasurface holograms with high efficiency and good
image fidelity over a broad range of frequencies. The metasurface hologram features the combination of two
sets of hologram patterns operating with opposite incident helicities. The demonstrated helicity multiplexed
metasurface hologram with its high performance opens avenues for future applications with functionalityswitchable.
18:40 : Invited talk
High-performance metasurfaces based on extraordinary optical diffraction
Zi-Lan Deng1 , Shuang Zhang2 , Guo Ping Wang1
1
Shenzhen University (China), 2 University of Birmingham (United Kingdom)
We show that the incident light can be near-completely reflected in the -1th diffraction order in a planar thin
metallic grating due to the excitation of localized cavity mode. Such extraordinary optical diffraction exists
for a wide-angle, broadband regime and a large modulation range of the grating period, allowing for a highperformance wavefront-shaping approach based on binary holography techniques. Our findings provide a
facile approach to build arbitrary wavefront-shaping metasurfaces with wide-angle, broadband, and high efficiency performance.
19:00 : Flexible Coherent Control of Plasmonic Spin-Hall Effect
Shiyi Xiao1 , Fan Zhong2 , Hui Liu2 , Shining Zhu2 , Jensen Li1
1
Nanjing University (China), 2 University of Birmingham (United Kingdom)
We demonstrate coherent and independent control of SPP orbitals for the two opposite spins using multiple
rings of nano-slots with properly designed orientations on a metasurface. This scheme provides us to achieve
arbitrary optical spin-Hall effect. This is a form of spin-enabled coherent control and provides a unique way in
achieving tunable orbital motions in plasmonics.
16:40 - 18:35 — Estepona
Session 1A35
SP7. Current Advances in Electromagnetics of Metal and HRI dielectric
nanostructures
Organized by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
Chaired by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
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16:40 : Invited talk
Spherical silicon photonic microcavities: Looking inside
Roberto Fenollosa1 , Moises Garin2 , Francisco Meseguer1
1
Consejo Superior de Investigaciones Cientificas (Spain), 2 Universitat Politecnica de Catalunya (Spain)
Silicon microspheres yield a rich electronic response in the near infrared via Mie resonance optical absorption.
The investigation of the internal structure and the optical properties of the microspheres has revealed that
they posses a richly structured core, surrounded by a non-porous shell. While such a porous core kills those
resonances whose electromagnetic field is well distributed in the porous region, high-Q modes should occur
at the non-porous shell.
17:00 : Invited talk
The magnetic response in high-index nanophotonics: from magnetic hot-spots to Huygens’ sources
and generalized Brewster’s effect
Ramon Paniagua-Dominguez, Y. F. Yu, R. M. Bakker, Y. H. Fu, B. Luk’yanchuk, A. I. Kuznetsov
A*STAR (Singapore)
Alldielectric nanophotonics based on high-refractive index (HRI) particles hasemerged as an alternative to
plasmonics for those cases in which losses are animportant concern. They also offer new possibilities due to
magnetic resonancesnaturally excited in HRI nanoparticles. Here we review some of these inconnection with
electromagnetic hotspots in HRI dimers and electric andmagnetic dipole interference effects, with focus on
metasurfaces.
17:20 : Invited talk
Full-solution process approach for tailoring light-matter interaction at the nanoscale
Juan F. Galisteo-Lopez, Alberto Jimenez-Solano, Hernan Miguez
Consejo Superior de Investigaciones Cientificas (Spain)
One dimensional nano-porous Photonic Crystals can be used as efficient emissive optical coatings by placing
nano-emitters at deterministically controlled positions where the local density of states is known. Combining
full solution-process techniques we can introduce nano-sized emitters at well-known positions which allow us
to probe the local photonic environment of the emitters. Further, a proper design of the photonic structure
allows us to optimize intensity, directionality and polarization of the coating’s emission.
17:40 : Effect of the oxide shell thickness on the UV plasmonic performance of Ga, Mg and Al nanoparticles
Yael Gutierrez1 , Dolores Oritz1 , Juan Marcos Sanz1 , Francisco Gonzalez1 , Jose Maria Saiz1 , Henry. O.
Everitt2 , Fernando Moreno1
1
University of Cantabria (Spain), 2 Duke University (USA)
A recent interest in UV-plasmonics has appeared due to its increasing potential in many applications ranging
from biology, spectroscopy or engineering. Magnesium, Aluminum and Gallium have been pointed out as
promising materials for this purpose. However, these metals form an oxide layer, several nanometers thick,
that may affect the formation of localized plasmons. In this work we analyze how the oxide shell thickness
affect the plasmonic performance of nanostructures made from these metals.
17:55 : Invited talk
Self-assembled disorder in photonic materials
Alvaro Blanco, Denise Montesdeoca, Cefe Lopez, Jose Angel Pariente, Carlos Pecharroman
Instituto de Ciencia de Materiales de Madrid ICMM-CSIC (Spain)
In this talk, I will summarize our latest results regarding self-assembled photonic materials and, in particular,
a new method to prepare photonic glasses from different colloidal suspensions (SiO2, Polystyrene, or PMMA)
in a very fast fashion will be presented. Starting from raw materials in the form of powder (as synthesized or
purchased) we demonstrate high quality photonic glasses prepared in minutes by simple pressure.
18:15 : Invited talk
Plasmonic and all-dielectric nanoantennas for wavelength-controlled directional scattering of visible
light
Pol Van Dorpe1 , Jiaqi Li1 , Dries Vercruysse2 , Niels Verellen2
1
Imec (Belgium), 2 KU Leuven (Belgium)
We will review our recent work on dielectric scattering using both metal and dielectric nano-antennas.
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16:40 - 18:45 — Benalmadena
Session 1A36
SP3. PT-symmetry in photonics, metamaterials and plasmonic systems
Organized by: Anatole Lupu and Henri Benisty
Chaired by: Anatole Lupu and Henri Benisty
16:40 : Invited talk
PT symmetric Bragg gratings operating with long-range surface plasmons
Elham Karami Keshmarzi, R. Niall Tait, Pierre Berini
Carleton University (Canada)
Parity Time (PT) Symmetric Bragg gratings operating with long-rane surface plasmons are investigated in the
near-infrared. It is shown that at the threshold for PT symmetry breaking, there is unidirectional reflectance
and dispersion-less group delay in transmittance. Optical gain provided by optically-pumped IR-140 is balanced with optical loss in this structure to access PT symmetric operation. The fabrication of PT symmetric
gratings is discussed and preliminary measurements are presented.
17:00 : Invited talk
PT-symmetry control with spatial and temporal modulations
Andrey A. Sukhorukov
Australian National University (Australia)
We present an overview of results on the effects of spatial and temporal modulations in coupled waveguides
and fiber loop resonator structures with gain and loss, which demonstrate features of parity-time symmetry
with real spectrum and transition to amplification and lasing.
17:20 : Invited talk
Linear and Nonlinear Light Propagation in PT-Symmetric Fiber Networks
Martin Wimmer1 , Mohammad-Ali Miri2 , Alois Regensburger1 , Christoph Bersch1 , Demetrios N. Christodoulides2 ,
Ulf Peschel3
1
Friedrich-Alexander-Universitat (Germany), 2 University of Central Florida (USA), 3 Friedrich Schiller University Jena (Germany)
In our experimental work, we create a Parity-Time (PT) symmetric material by coupling two fiber loops of
different length. Applying an additional external phase gradient to the system leads to Bloch oscillations,
which show the intriguing behavior of exceptional points as well as the existence of phase gradients, for which
a pseudo-Hermitian propagation is reestablished. Furthermore, we experimentally investigate the nonlinear
regime and the formation of PT solitons.
17:40 : Invited talk
Parity-time symmetry and nonreciprocal light transmission in high-Q microcavity systems
Min Xiao1 , Xiaoshun Jiang1 , Long Chang1 , Jianming Wen2 , Liang Jiang2
1
University of Arkansas (USA), 2 Yale University (USA)
We have realized parity-time symmetry in a coupled active-passive microcavity system with balanced gain
and loss. On-chip nonreciprocal light transmission and circulation due to gain-saturaton nonlinearity are experimentally demonstrated in coupled active-passive, as well as in single active high-Q, microcavity systems.
There are certain advantages by using a single active microcavity with gain saturation for achieving nonreciprocal light transmission and circulation, such as simplicity in the structure, easy to control, low insertion loss
and supperior isolation performance.
18:00 : Side-coupled resonators with parity-time symmetry for broadband unidirectional invisibility
Nicolas Rivolta, Bjorn Maes
University of Mons (Belgium)
We analyze the scattering properties of PT-structures made of a waveguide and a finite chain of side-coupled
resonators. Typical 1D PT-structures exhibit unidirectional invisibility (also called anisotropic transmission resonances), meaning unit-transmission and zero-reflection for incidence from one direction. The side-coupled
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nature of our structure provides different features than the traditional tight-binding chain, which we explore
rigorously. For example, we can achieve a broadband unidirectional invisibility with only two resonators, and
we observe rich dispersions for ATRs with four resonators.
18:15 : The Lorentz group and PT-symmetric waveguide couplers.
Blas Manuel Rodriguez-Lara1 , Julio Guerrero2
1
Instituto Nacional de Astrofisica, Optica y Electronica (Mexico), 2 Universidad de Murcia (Spain)
We show that finite-dimensional optical implementations of the 2+1D Lorentz group in arrays of coupled
waveguides can be used as a platform for PT-symmetric all-optical devices. In particular, we explore the
linear PT-symmetric dimer and planar three-waveguide coupler, where directional coupling and conversion of
amplitude to phase modulation can be demonstrated.
18:30 : Unidirectional Reflectivity in Quarter Stacks with Balanced Losses/Gains
Josue Ramirez-Hernandez1 , Felix Izrailev1 , Nykolay Makarov1 , Demetrios Christodoulides2
1
Instituto de Fisica - BUAP (Mexico), 2 University of Central Florida (USA)
We study transport properties of a periodic 1D array of bi-layers focusing on theunidirectional refectivity that
emerges as a result of the balanced losses/gains incorporated into the arrays. Our analysis is based on the
transfer matrix method according to which we derive analytical expressions for both spectral and transport
characteristics of the model. We have unexpectedly found that the PT-symmetric transport can emerge even
when the system itself is not PT-symmetric.
16:40 - 19:20 — Mijas
Session 1A37
SP15. Non-linear and ultra-fast spectroscopy of nano- and meta-materials
Organized by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
Chaired by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
16:40 : Invited talk
Femtosecond Exciton and Charge Dynamics and unusual Stark Effect in Mono- and Few-layer Transition
Metal Dichalcogenides
Christoph Gadermaier1 , Tetiana Borzda1 , Victor Vega-Mayoral1 , Daniele Vella1 , Peter Topolovsek1 ,
Matej Prijatelj1 , Tomaz Mertelj1 , Natasa Vujicic2 , Dmitry Ovchinnikov3 , Dumitru Dumcenco3 , Daniele Viola4 , Eva A.A. pogna4 , Cristian Manzoni4 , Stefano Dal Conte4 , Francesco Scotognella4 , Daniele
Brida5 , Nicola Martino6 , Mariarosa Antognazza6 , Guglielmo Lanzani6 , Andras Kis3 , Dragan Mihailovic1 ,
Giulio Cerullo4
1
Jozef Stefan Institute (Slovenia), 2 Institute of Physics (Croatia), 3 EPFL (Switzerland), 4 IFN-CNR (Italy),
5
University of Konstanz (Germany), 6 Center for Nano Science and Technology (Italy)
Despite the large exciton binding energy, mono- and few-layer transistion metal dichalcogenides (TMDCs)
show strong photocurrents and photovoltaic effect. We report on the exciton dissociation into charges on
the sub-ps scale and subsequent charge trapping in different TMDCs. An in-plane electric field further enhances the yield of exciton dissociation. Additionally, TMDCs show a strong Stark effect of unusual origin
and field dependence, suggesting their use in extremely compact electroabsorption modulators for integrated
photonics.
17:00 : Invited talk
Spatial Dependence of the Electron-hole correlation in Hybrid Perovskite Crystals
Giulia Grancini1 , Daniele Viola2 , Marina Gandini3 , Davide Altamura4 , Cinzia Giannini4 , Giulio Cerullo2 ,
Annamaria Petrozza3
1
Ecole Polytechnique Federale de Lausanne (Switzerland), 2 Politecnico di Milano (Italy), 3 Instituto Italiano di
Technologia (Italy), 4 Institute of Crystallography (Italy)
Methylammonium-lead-iodide perovskite are delivering impressive performances in photovoltaic field, crea-
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ting much excitement in the research community. Monitoring the charge dynamics and revealing how they
are influenced by the crystal order is of paramount importance to get a more fundamental insight into this
fascinating material and a deeper understanding of the device operation. By combining state-of-the-art femtosecond microscopy with micro-Raman we image the photophysical scenario in CH3NH3PbI3 micro-crystals
determining the decisive role of the molecular disorder in screening the electron-hole correlation.
17:20 : Invited talk
Optical properties of supported size-selected metal clusters
Aras Kartouzian1 , M. Thamer2 , T. Lunskens1 , P. Heister1 , A. Von Weber1 , U. Heiz1
1
Technische Universitat Munchen (Germany), 2 Fritz Haber Institute (Germany)
By combining linear and nonlinear spectroscopic methods, we study the optical response of size-selected
metal clusters supported on oxide materials. Such experiments could not be performed in the past due to
extremely high sensitivities that are required to investigate truly monodispersed size-selected cluster samples
with surface coverages as low as 0.1percent of a monolayer. Our results on silver clusters indicate a general
trend in agreement with theoretical predictions and a nonscalable behavior characteristic of small clusters.
17:40 : Invited talk
Vector Field Nonlinear Optical Microscopy of Nanoparticles
Martti Kauranen, Leo Turquet, Abdallah Slablab, Godofredo Bautista
Tampere University of Technology (Finland)
We review our work on the use of focused vector beams in nonlinear optical characterization of nanoparticles.
We show that such beams, including radially and azimuthally polarized beams as well as more advanced highorder beams, provide unique opportunities in the characterization of several types of nanostructures and in
controlling the coupling of light into such structures.
18:00 : Invited talk
Plasmon-Mediated Nonlinear Optical-Detected Circular Dichroism
Kenneth L. Knappenberger, Jeremy W. Jarrett
Florida State University (USA)
We present nonlinear circular dichroism responses from colloidal metal nanoparticle assemblies. A pair of
orthogonally polarized, phase-locked, temporally delayed laser pulses were used to create the excitation
polarization state for circular dichroism (CD) microscopy. Analysis of the emission properties suggested that
the CD responses were determined by properties of the one-photon-resonant mode excited by the laser.
The methods used to generate phase-locked pulse sequences that modulate the excitation polarization are
expected to simplify polarization-resolved microscopy.
18:20 : Invited talk
Nonlinear Optical Properties of Atomically Defined Thiolate Protected Gold Clusters
Stefan Knoppe, Thierry Verbiest
KU Leuven (Belgium)
Thiolate-protected gold clusters have become an intensely studied area of research in nanochemistry. Bridging the gap between true molecules and the metallic state, this class of compounds is characterized by
highly size-dependent properties. Little is known about their nonlinear optical properties. We describe initial
results on the first hyperpolarizabilities of a series of thiolate-protected gold clusters, supported by density
functional theory calculations. Of note, the clusters are also efficient two photon absorbers.
18:40 : Invited talk
MultiPhoton chiroptical effects in nanospirals and in chirally coupled plasmonic nanostructures
Ventsislav K. Valev
University of Bath (United Kingdom)
Strong chiroptical effects in plasmonic nanostructures could find applications in chiral molecular sensing,
separation and synthesis. Here we investigate a range of chiral plasmonic nanomaterials with voids in the
centers, where molecules could benefit from a superchiral light enhancements.
19:00 : Invited talk
Cesium Lead Halide Perovskite Nanorcystals as a New Optoelectronic Material
Handong Sun
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Nanyang Technological University (Singapore)
Optical gain and lasing properties in a new class of emerging quantum materials, the colloidal all-inorganic
cesium lead halide perovskite quantum dots (IPQDs) (CsPbX3, X = Cl, Br, I) will be presented. Our result
has indicated that such material system show combined merits of both colloidal quantum dots and halide
perovskites.
16:40 - 17:20 — Alhaurin
Session 1A38
SP21. Plasmonics and propagation of electromagnetic radiations in
low-dimensional materials
Organized by: Mohamed Boutchich and Bruno Gallas
Chaired by: Mohamed Boutchich and Bruno Gallas
16:40 : Invited talk
Atomic scale meta-surfaces based on graphene and hexagonal boron nitride
Dmitri Basov
Columbia University (USA)
We have investigated meta-surfaces comprised of graphene and hexagonal boron nitride. These structures
show tunable hyperbolic response and are well suited to control flow of surface plasmons with electrostatic
gating and/or photo-excitation.
17:00 : Invited talk
Plasmonic excitations in thin topological insulators
Tobias Stauber
Instituto de Ciencia de Materiales de Madrid - CSIC (Spain)
We discuss plasmonic excitations in thin slabs of topological insulators. These structures can be ideally
modeled as a double layer of Dirac electrons and we point out that the plasmonic modes usually depend on
the sample thickness - only for very small wave numbers, the universal Dirac dispersion is recovered. In order
to explain recent experiments, we propose to also consider the influence of the Schrödinger-like depletion
layer underneath the two Dirac systems.
17:25 - 18:40 — Alhaurin
Session 1A39
GEN1. Plasmonics and nanophotonics
Chaired by: Di Feng
17:25 : Towards a quantitative description of the plasmonic character of optical excitations in nanostructures
Luca Bursi1 , Arrigo Calzolari2 , Stefano Corni2 , Elisa Molinari1
1
Universita di Modena e Reggio Emilia (Italy), 2 Istituto Nanoscienze CNR-NANO-S3 (Italy)
The excited states of molecular-sized systems have an intrinsic quantum nature. How to recognize plasmonic
excitations microscopically in these systems is still an open issue. Here we introduce approaches that allow
the quantification of the plasmonic character for each excitation based on first-principles simulations. Our
results on isolated and hybrid prototypical nanostructures shed some light on the nature of plasmons at the
nanoscale.
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17:40 : First-order perturbation theory with analytical mode normalization for plasmonic nanoantenna
arrays applied to refractive index sensing
Thomas Weiss1 , Martin Mesch1 , Martin Schaferling1 , Harald Giessen1 , Wolfgang Langbein2 , Egor
Muljarov2
1
University of Stuttgart (Germany), 2 Cardiff University (United Kingdom)
We present a rst-order perturbation theory to calculate the frequency shift and linewidth change of photonic
resonances under modications of the surrounding refractive index. Our method is based on the resonant state
expansion and includes a simple analytical expression for the mode normalization. We apply our theory to
calculate the sensitivity of plasmonic resonances in periodic arrays of nanoantennas for resonantly enhanced
refractive index sensing.
17:55 : Plasmonic properties of metal-doped ZnO transparent conductive oxides for energy conversion
Alessandra Catellani1 , Alice Ruini2 , Arrigo Calzolari1
1
CNR-NANO Istituto Nanoscienze (Italy), 2 Universita’ di Modena e Reggio Emilia (Italy)
Using first principles calculations, we investigate the origin of near-infrared plasmonic activity in M-doped
ZnO (MZO), one of the most promising TCO materials for optoelectronics and photovoltaics applications.
Our results predict realistic values for the plasma frequency and the free electron density as a function of
the M-doping, in agreement with recent experimental results. Then we characterize the plasmon properties of
In-doped nanowires that have been envisaged as plasmonic nanoparticles for energy conversion applications.
18:10 : Enhanced Subwavelength Focusing Properties of Ag-Au Hybrid Plasmonic Lens with Outer
Slit Design
Kai Hao Chang, Min Hsiu Cheng, Po Tsung Lee
National Chiao Tung University (Taiwan)
We propose a Ag-Au hybrid plasmonic lens (PL) with outer slit design to obtain enhanced subwavelength
focusing. The added outer slit can increase the power intensity and narrow down the focal spot. The measured
focal spots of Ag-Au hybrid PL and Au PL with outer slit are 285 nm and 299 nm at working wavelength of
633 nm, which show the better subwavelength focusing property for the bimetallic nanostructure design.
18:25 : Integrated Photonics Platform for Single Quantum Dots at Telecom Wavelengths
Khaled Mnaymneh, D. Dalacu, S. Haffouz, J. Lapointe, P. J. Poole, R. L. Williams
National Research Council (Canada)
We report on progress towards an integrated photonics architecture for single self-assembled quantum dots.
Specifically, we use InAs dots in an InP matrix that act as our non-classical light sources for telecommunication
wavelengths. The emission of these dots is collected and routed using our semiconductor-under-insulator
platform technology.
16:40 - 19:15 — Coin
Session 1A40
GEN9. Metasurfaces and optical antennas
Chaired by: Thomas Zentgraf
16:40 : Invited talk
Novel Photonic Devices with Spatiotemporally Engineered Metasurfaces
Amr Shaltout, Alexander Kildishev, Vladimir Shalaev
Purdue University (USA)
Metasurfaces have expanded the ability of planar control over photonic momentum, angular-momentum
and/or spin states, through locally controlled phase and/or polarization, enabling a novel family of ultrathin
flat devices. Another class of time-varying metasurfaces opens up a new horizon of light control based on
space-time duality of wave equations. Temporally-engineered metasurfaces break Lorentz-reciprocity paving
the way for developing magnetic-free optical isolators. Furthermore, they induce a wavelength-shift that could
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compensate for Doppler-shift and render a velocity cloak for moving objects.
17:00 : High-performance planar holographic structures for complex focusing of terahertz beams
Sergei A. Kuznetsov1 , Mikhail A. Astafev1 , Alexandr N. Gentselev2 , Miguel Navarro-Cia3 , Miguel Beruete4 ,
Andrey V. Arzhannikov1
1
Novosibirsk State University (Russia), 2 Budker Institute of Nuclear Physics (Russia), 3 University of Birmingham (United Kingdom), 4 Public University of Navarra (Spain)
We overview the research results on electromagnetic optimization and experimental realization of low- and
high-aspect plasmonic structures designed for simple and sophisticated focusing at the frequencies of 0.35
and 0.65 THz. The structures are considered both in the reflect- and transmit-array configurations whose surface phase distribution is synthesized with a computer holography technique. The overall diffraction efficiency
reaching 80 percent is experimentally demonstrated. The methods of structure fabrication using UV and deep
X-ray lithography are discussed.
17:15 : Extrinsic orbital Hall effect in cyclic group symmetric metamaterial
Yeon Ui Lee1 , Igor Ozerov2 , Frederic Bedu2 , Ji Su Kim1 , Frederic Fages2 , Jeong Weon Wu1
1
Ewha Womans University (Korea), 2 Aix Marseille University (France)
We designed and fabricated a cyclic group symmetric metamaterial possessing n-fold rotation symmetry,
composed of plasmonic tapered arc antennas. We show how the far field intensity distribution of vortex beam
with orbital angular momentum can be tailored through cyclic group symmetry designs. The extrinsic orbital
Hall transverse shifts from metamaterials exhibit geometrical patterns associated with the order n of n-fold
rotation symmetry. We found that the experimentally observed geometrical patterns agree well with those
obtained from FDTD theoretical simulation.
17:30 : Far field dark modes excitation and electromagnetically induced transparency
Elena Bochkova1 , Shah Nawaz Burokur2 , Andre de Lustrac1 , Anatole Lupu1
1
Universite Paris Sud (France), 2 Universite Paris Ouest (France)
We introduce new concepts of direct dark modes and electromagnetically induced transparency excitation
based on a resonant element with incoming field symmetries matching and far field coupling of resonant
elements using their antenna emission properties. This greatly relaxes fabrication constraints for the optical
domain where such kind of resonances presenting sharp spectra are highly desirable for sensing applications.
17:45 : Periodic arrays of film-coupled nanoparticles as tunable all-dielectric metasurfaces
Evangelos Almpanis1 , Nikolaos Papanikolaou2 , Vassilios Yannopapas1 , Nikoalos Stefanou3
1
National Technical University of Athens (Greece), 2 Institute of Nanoscience and Nanotechnology (Greece),
3
National and Kapodistrian University (Greece)
Electromagnetic coupling of nanoparticles with a thin film gives rise to various optical modes that enable the
control of light in many different ways. Such ultrathin geometries with exotic optical behaviour, also known as
metasurfaces, are advantageous for flat optics applications compared to three-dimensional metamaterials.
In this work we demonstrate the performance of all-dielectric metasurfaces and propose architectures for
plasmon-like field concentrations, total absorption, and enhanced magneto-optical effects.
18:00 : Gradient phase Metasurfaces lens to focus electromagnetic waves
Akram Boubakri, F. Choubeni, T. H. Vuong, J. David
INNOVCOM LAB (Tunisia)
Recent progress has shown that flat metasurfaces with reduced dimensions are capable to provide an abrupt
phase change which is responsible for the modification of the wavefront beam and enable the development
of a novel ultrathin flat lens. Here, we present a flat metasurfaces lens enable the focus of an impinging plane
wave to a point in reflection geometry.
18:15 : Resonances in metasurfaces and their applications in SPR sensing
Ivan Richter, Jakub Lelek, Pavel Kwiecien, Jan Fiala
Czech Technical University (Czech Republic)
We study the resonant processes in nanostructured metasurfaces, mainly in arrayed configurations, and
assess their potential for surface plasmon resonance effect applied in biosensor applications. Metasurface
building blocks with various shapes and arrangements have been analyzed, in terms of their resonances
in reflection / transmission and figures of merit. The analysis has been performed with a combination of
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(quasi)analytical approaches and numerical studies, using a combination of our in-house rigorous coupledwave analysis technique and finite difference time domain method.
18:30 : Nanoantennas for controlled enhancement and interference of higher-multipole molecular
transitions
Karolina Slowik1 , Evgenia Rusak2 , Mirko Goeddel2 , Jakob Straubel2 , Michael Kuehn2 , Florian Weigend2 ,
Carsten Rockstuhl2
1
Nicolaus Copernicus University (Poland), 2 Karlsruhe Institute of Technology (Germany)
The spontaneous emission of quantum emitters can be modified by engineering their optical environment. A
resonant nanoantenna can significantly modify the radiative properties of a quantum emitter. In this contribution, we go beyond the common electric dipole approximation for the molecular electronic transition, and
take higher-multipole channels into account. We theoretically investigate the impact of metallic and dielectric nanoantennas on the interference effects in the emission via different multipolar pathways of a specific
molecular transition.
18:45 : Tunable Metasurfaces in Control of Beam Steering and Surface State Resonance with Liquid
Crystals
Kuo-Ping Chen, Mong-Yin Lin, Shi-Cheng Ye, Mao-Guo Sun, Chi-Yin Yang
National Chiao-Tung University (Taiwan)
Metasurfaces got immense attention because of the ability controlling the flow of light. The tunability of metasurfaces system could be realized by combining with liquid crystals. In this work, several novel devices,
including diffraction control of binary gratings metasurfaces, and tunable optical Tamm state resonance would
be presented.
19:00 : Highly Sensitive Room Temperature Graphene-based Sub-terahertz Photoconductor via Electromagnetic Gating Effect
Lin Wang, Xiaoshuang Chen, Changlong Liu, Weiwei Tang, Wei Lu
University of Science and Technology of China (China)
We report biased photoconductive detector but otherwise homogeneous graphene-channel with sensitivity
exceeding 400V/W (4?103V/W) at room temperature and noise-equivalent power less than (0.5 nW/Hz0.5),
reference to the incident (absorbed) power at terahertz band. The performance is competitive with current
optimal coupled room-temperature terahertz detector and attributed to the fast carrier recombination driven
by thermoelectric origin and high current gain. Our analysis appealingly opens the perspective to properly
engineering preferred photodetection mechanism for addressing the targeted THz application requirements.
16:40 - 19:05 — Blanca
Session 1A41
GEN8. Metamaterial-based devices and antennas
Chaired by: Maha Achour
16:40 : Invited talk
Circularly split ring resonator based frequency reconfigurable antenna
Md. Atiqur Rahman1 , Mohammad Rashed Iqbal Faruque1 , Mohammad Tariqul Islam2
1
Space Science Centre (ANGKASA) (Malaysia), 2 Universiti Kebangsaan Malaysia (Malaysia)
In this paper, a frequency reconfigurable antenna based on a Circularly Split Ring Resonator (CSRR) is
presented. The proposed reconfigurable antenna consists of a microstrip-fed hook shape monopole and a
CSRR having single split ring only. The resonance frequency of the CSRR can be arbitrarily chosen by varying
its dimension and relative position with the monopole, which leads the antenna to become reconfigurable one.
17:00 : Invited talk
Compensating wave packet distortion with active anomalously dispersive media or devices
Chun Wang1 , Anjie Zhu1 , Shan Qiao2 , Yongzhi Sun2 , Dexin Ye1 , Lixin Ran1
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Zhejiang University (China), 2 Nanjing Institute of Electronic Equipement (China)
The observed wave transmission with negative group velocity in anomalous dispersion frequency regions
implies the possibility to compensate for the wave packet distortion by a properly designed anomalously
dispersive property. Considering the considerable loss in anomalous regions, metamaterials or devices constructed with active elements are good candidates. We verified the compensation for severely distorted wave
packets with a wideband floating non-Foster element. The result shows the potential to implement low-loss
anomalously dispersive devices or metamaterials for wave packet compensation.
17:20 : Artificial Dielectric Metamaterials for Antenna Applications
Shiyu Zhang1 , Yiannis Vardaxoglou1 , Will Whittow1 , Raj Mittra2
1
Loughborough University (United Kingdom), 2 University of Central Florida (USA)
The paper will examine the problem of synthesizing non-resonant metamaterials, in the context of several
practical applications, for example, flat GRIN lenses, and to propose a strategy of realizing the specified dielectric parameters that avoid the pitfalls in the previous design strategies. We show a step-by-step procedure
for designing a flat GRIN lens by systematically modifying COTS (commercially off the shelf) materials, by
using metallic or dielectric inclusions in a polymer based host material.
17:35 : Design of plasmonic structures in CMOS technology for low-cost, enhanced infra-red gas
sensors
Julian Gardner1 , Yuxin Xing1 , Barbara Urasinska-Wojcik1 , Andrea de Luca2 , Florin Udrea2
1
University of Warwick (United Kingdom), 2 University of Cambridge (United Kingdom)
We have designed different plasmonic structures in CMOS technology that enhance infra-red emissivity at
wavelengths useful for air quality applications. Plasmonic structures are presented comprising periodic arrays
of holes in tungsten and aluminium for IR wavelengths associated with CO2, CO and H2S. These plasmonic
structures are simulated using COMSOL and shown to provide enhanced IR emissivity at specific wavelengths. Our results enable fabrication of low-cost MEMS-based IR gas sensors with the ability to differentiate
between different gases.
17:50 : Double Negative Metamaterial for Mobile Phone Application
Md Ikbal Hossain, M. R. I. Faruque, M. T. Islam
Universiti Kebangsaan Malaysia (Malaysia)
In this paper, a new design and analysis of metamaterial for modern mobile phone application is presented.
The proposed metamaterial unit-cell design consists of two connected square spiral structures, which leads
to increase the effective media ratio. The finite instigation technique (FIT) based on Computer Simulation
Technology (CST) Microwave Studio is utilized in this investigation and the measurement is performed in an
anechoic chamber. The results indicate that the proposed metamaterial can successfully cover cellular phone
frequency bands.
18:05 : Flexible Ultra-Wideband Antenna with Incorporated Metamaterial Structures-Multiple Notches
for Data Encoding of Chipless RFID Application
Mohd Ezwan Bin Jalil, Mohamad Kamal Bin A. Rahim, Nor Asmawati Samsuri, Raimi Bin Dewan,
Kamilia Kamardin
University Technology Malaysia (Malaysia)
A coplanar waveguide ultra-wideband antenna with incorporated metamaterial structure operating from 3.012.0 GHz is designed for data encoding for chipless RFID. A slotted modified complementary split ring resonator is introduced into the UWB antenna to produce multiple band-notches characteristics. To achieve
encoding of 10-bits data, 5 MCSRRs are proposed with three slotted MCSRR in the radiator and three slotted
MCSRR in the ground plane. This technique is suitable for creating a compact and a high capacity chipless
RFID tag.
18:20 : A Double-Layer Metamaterial-Based Technique for Interference Mitigation and Shielding of
Planar Microwave Structures
Athanasios N. Papadimopoulos1 , Theodosios D. Karamanos1 , Nikolaos L. Tsitsas1 , Constantinos A.
Valagiannopoulos2 , Nikolaos V. Kantartzis1 , Theodoros D. Tsiboukis1
1
Aristotle University of Thessaloniki (Greece), 2 Nazarbayev University (Kazakhstan)
An efficient cloaking-shielding technique based on the use of a double superstrate-layer overlay is developed
in this paper for planar microstrips. The metamaterial-inspired formulation reduces considerably the induced
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on the strip current and the reected from the microstrip electric field, thus alleviating the electromagnetic
susceptibility of microstrip transmission lines. For this purpose, the mathematical analysis and optimization
procedure are founded on a semi-analytic integral equation algorithm, while a set of numerical results certies
its promising merits.
18:35 : High efficient wireless power transfer system based on dielectric resonators
Polina Kapitanova, Minghzao Song, Pavel Belov
ITMO University (Russia)
We propose a high efficient magnetic near field resonance wireless power transfer (WPT) system based on
high permittivity dielectric resonators. Magnetic dipole and magnetic quadrupole modes of the resonator are
experimentally investigated as the operating modes of the WPT system. The system operating at magnetic
quadrupole mode demonstrates high WPT efficiency and stability to the mutual orientation of the transmitter
and receiver.
18:50 : New compact AMC structure for low profile antenna
Nebil Kristou1 , Jean-Francois Pintos1 , Kourosh Mahjoubi2
1
CEA-LETI (France), 2 Universite de Rennes 1 (France)
In this paper, an alternative technique for AMCs unit cell miniaturization is proposed. A miniaturized novel
planar AMC unit cell is designed, the reflection coefficient is simulated and then compared with a conventional
equally thick mushroom-like unit cell in order to determine the achieved level of miniaturization. Subsequently,
a 5X5 AMC unit cell finite structure for low profile antenna is designed to operate at 900 MHz and simulated
to demonstrate the potential of the new proposed structure.
16:40 - 18:05 — Sierra Nevada
Session 1A42
GEN3. Photonic crystals and cavities
Chaired by: Takuya Inoue
16:40 : Invited talk
One-way waveguide by self-collimation in photonic crystals
Rui-Xin Wu, Qing-Bo Li, Yin Poo
Nanjing University (China)
We demonstrate that by breaking the parity and time-reversal symmetries electromagnetic waves can selfcollimate and propagate unidirectionally in magnetic photonic crystals, which can be consider as a one-way
wavguide. Experimentally, the one-way propagation in such magnetic photonic crystals is observed.
17:00 : Invited talk
Biomimetic gyroid photonic crystals
Min Gu
RMIT University (Australia)
We will present our recent results on gyroid photonic crystals.
17:20 : Topological properties of nearly flat bands in two-dimensional photonic crystals
Bing Yang, Tong Wu, Xiangdong Zhang
Beijing Institute of Technology (China)
Based on exact numerical calculations and physical analyses, we demonstrate that there are two types of
nearly flat band in two-dimensional (2D) magnetic photonic crystals (PhCs). One has trivial topology with
zero Chern number and the other has non-trivial topology with nonzero Chern number. Physical origins and
topological properties of these two types of flat band are studied comparatively.
17:35 : All-dielectric Zero-Index Metamaterial
Daryl Inna Vulis1 , Yang Li1 , Orad Reshef1 , Mei Yin2 , Philip Camayd-Munoz1 , Shota Kita1 , Marko Loncar1 ,
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Eric Mazur1
1
Harvard University (USA), 2 Peking University (China)
We present an on-chip Dirac-cone metamaterial with an impedance-matched zero refractive index at a wavelength of 1550nm. The design consists of a square array of air holes in 220-nm silicon-on-insulator (SOI) that
can be fabricated using a single electron beam lithography procedure. This all-dielectric structure offers improved compatibility with current integrated silicon photonics platforms. In addition, this design enables mass
production of zero-index-based photonic devices at low cost and high quality using standard complementary
metal-oxide-semiconductor (CMOS) fabrication technology.
17:50 : Chiral photonic crystals to control the circular polarization of quantum dots’ light emission
Sergei G. Tikhodeev1 , S. V. Lobanov1 , N. A. Gippius2 , T. Weiss3 , C. Schneider4 , J. Gebler4 , M. Kamp4 ,
S. Hofling4 , A. A. Maksimov1 , E. V. Filatov1 , I. I. Tartakovskii1 , V. D. Kulakovskii1
1
Russian Academy of Sciences (Russia), 2 Skolkovo Institute of Science and Technology (Russia), 3 University
of Stuttgart (Germany), 4 Universitat Wurzburg (Germany)
We demonstrate a possibility to control the polarization state of radiation from quantum dots embedded
in chiral photonic crystal structures made of achiral planar GaAs waveguides. A chiral partial etching of the
waveguide layer modifes the electromagnetic mode structure and results in a high circular polarization degree
of the quantum dot emission in the absence ofexternal magnetic eld.
18:10 - 19:10 — Sierra Nevada
Session 1A43
GEN17. Modeling, Computational Techniques and Verification of Theory
Chaired by: Alejandro Ortega Monux
18:10 : Discontinuous Galerkin Time Domain Methods for Nonlocal Dispersion Models and Electron
Beam Modeling in the Context of Nanoplasmonics
S. Lanteri, C. Scheid, Nikolai Schmitt, J. Viquerat
Universtity of Nice-Sophia Antipolis (France)
We present recent advancements of the development of our DGTD solvers for computational nanophotonics,
particularly for metallic nanostructures irradiated by laser pulses or electron beams. By this means, we firstly
discuss the numerical treatment of a nonlocal dispersion model for the electron gas which is necessary for
structures in the regime of 2 nm to 25 nm. Subsequently, we deal with the modeling of electron beams in 3D
simulations for e.g. electron energy loss spectroscopy or cathodoluminescence.
18:25 : Microwave Permeability of Hollow Iron Spheres
Conor John McKeever, Mustafa Aziz, Feodor Ogrin
University of Exeter (United Kingdom)
Carbonyl iron composites comprised of particles which possess an alternating concentric geometry of iron
and insulating iron carbide exhibit large permeability in the microwave region. However, predicting the microwave behaviour of such composites has proved challenging due to a limited understanding of the underlying
physics governing the particles. We report on micromagnetic computations showing several intensive peaks
as high as 25 GHz in the permeability spectrum of hollow iron spheres when excited from their minimum
energy state.
18:40 : Vortices and orbital angular momentum of naturally occurring patterns
Mohamed Babiker1 , Jun Yuan1 , Yuanjie Yang2 , G. Thirunavukkarasu1
1
University of York (United Kingdom), 2 University of Electronic Science and Technology (China)
In this talk we describe the design, analysis and experimental realisation of diffractive elements containing
ordered sets of multi-pinhole spirals capable of the generation and selection of vortex beams. The elements
are inspired by naturally occurring designs found in the plant and animal kingdoms much of which are rooted
on mathematical principles associated with the Fibonacci numerology and involves spirals and helices such
as those of Fermat and Archimedes.
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18:55 : Symmetry Analysis for Metamaterials with Periodic Microstructure
Pu Zhang
The University of Manchester (United Kingdom)
Lattice materials with periodic microstructures are the most popular metamaterials such as phononic/photonic
crystals and auxetic materials. A fundamental property of these periodic metamaterials is their symmetry,
which will inevitably affect their physical behaviors. This work aims at establishing a mathematical framework
to analyze the point group symmetry of such kind of metamaterials. In addition, the symmetry breaking is also
studied for reconfigurable metamaterials, which has potential application in designing tunable metamaterials.
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Tuesday 26th July, 2016
08:00 - 10:00 — Malaga
Session 2A1
Plenary Session II
Chaired by: David R. Smith
08:00 : Plenary talk
Optical forces on exotic materials
Stephen Barnett
University of Glasgow (United Kingdom)
Light has mechanical properties and it can transfer these to the material bodies with which it interacts. Radiation pressure and dipole forces on dielectrics are familiar, but this talk will concentrate on the subtleties that
appear with more exotic objects including magneto-dielectrics, negative-index materials and chiral molecules.
08:40 : Plenary talk
Transformation optics, surface plasmons, and metasurfaces
John B. Pendry
Imperial College London (United Kingdom)
Metallic surfaces support surface plasmon excitations whose properties are intimately connected to the surface geometry. For example a flat silver surface is an excellent mirror, but the same material with a rough
surface is black, reflecting hardly any light. Here we use transformation optics to relate many complex surface
structures to a single mother structure. In this way we can classify the spectra of these complex surfaces.
Examples will be given of singular structures that harvest light, electron energy loss, van der Waals forces
and other properties that are related to the surface plasmon spectrum.
09:20 : Plenary talk
Near-Zero Photonics
Nader Engheta
University of Pennsylvania (USA)
In this talk, I will present an overview of our ongoing efforts in exploring various aspects of light-matter interaction in platforms and structures with effective near-zero parameters. We have found exciting phenomena in
classical and quantum aspects of wave interaction with such media that may show new roads towards novel
devices with unprecedented functionalities, and fundamental features in quantum optics and wave physics. I
will discuss some of our most recent results and forecast future directions and potentials.
Coffee Break and Exhibit Inspection
Session 2P1
Poster session III
10:00 - 10:40
P1: Microscopic Calculations of Dielectric Properties for Hyperbolic Metamaterials
Maxim Anokhin, Alexey Tishchenko, Mikhail Strikhanov
National Research Nuclear University MEPhI (Russia)
We theoretically study dielectric properties of hyperbolic metamaterials. Generalized Clausius-Mossotti relation as well as existence conditions for such metamaterials are obtained with help of the local field theory.
The perpendicular and parallel components of the dielectric permittivity are found as functions of microscopic
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parameters of a single particle and a dielectric matrix. Necessary numerical calculations are performed.
P2: A metasurface designed for adaptive optical near-field routing
Chung-Ying Lin, C. -B Huang
National Tsing Hua University (Taiwan)
A metasurface comprised of v-grooves etched into a gold thin film is presented. We numerically demonstrate
that multi-functional near-field optical routing could be achieved in our metasurface through simple polarization control to the excitation plane wave.
P3: Plasmon-Enhanced Raman Spectroelectrochemistry
Kyohei Okubo1 , Loan Le Thi Ngoc2 , Edwin Carlen1
1
University of Tsukuba (Japan), 2 University of Twente (The Netherlands)
An analysis system based on plasmon-enhanced Raman spectroelectrochemistry is presented that consists
of a microfluidic sample chamber integrated into a three-electrode cell for in situ Raman spectroelectrochemistry. The key elements of the spectroelectrochemical analysis system are a nanostructured gold surface
that serves as the electrochemical working electrode and surface-enhanced Raman scattering (SERS) substrate, microfabricated counter electrode, and reference electrode. The system has the merits of wide range of
target molecules, small sample volume, and low detection limit.
P4: Light trapping above the light cone in a periodic array of dielectric spheres
Evgeny Bulgakov, Almas Sadreev
Kirensky Institute of Physics (Russia)
We show existence of Bloch bound states in the continuum (BSCs)embedded in the diffraction channels in an
infinite periodic array of dielectric spheres. The BSCsare propagating solutions of the Maxwell equationslocalized in the vicinity of the array. The BSCs can bedetected by the collapse of Fano resonance in scattering
of electromagnetic plane waves.
P5: Analysis of TM surface plasmons at Graphene-MTM interface
Rifa Jarallah El-Khozondar1 , Hala Jarallah El-Khozondar2 , Mohammed M Shabat2
1
Al-Aqsa University (Palestine), 2 Islamic University of Gaza (Palestine)
A new waveguide is proposed which consists of thin graphene layer on top of MTMs and covered by air. The
graphene conductivity is taken to be constant with positive imaginary part. Therefore, we studied the possible
propagation of Transverse Magnetic (TM) surface plasmon (SP) in terahertz range of frequency. The effective
refractive index as a function of frequency at different MTM’s parameters is plotted using Maple 17.
P6: Developing a FETD method for modeling of the optical black hole in metamaterials
Wei Yang1 , Jichun Li2 , Yunqing Huang1
1
Xiangtan University (China), 2 University of Nevada Las Vegas (USA)
In this paper we propose a finite element time-domain (FETD) method for modeling the optical black holes
(OBHs) in metamaterials. Stability analysis is carried out for the proposed scheme. Simulations of cylindrical,
elliptical and square black holes demonstrate that our method is quite effective in modeling OBHs in time
domain. To our best knowledge, this is the first OBHs simulation realized by the FETD method.
P7: Optical diode based on unidirectional state exchange around an exceptional point
Youngsun Choi, Choloong Hahn, Jae Woong Yoon, Seok Ho Song
Hanyang University (Korea)
We theoretically propose optical diode design based on unidirectional state exchange. The proposed device consists of an index-modulated waveguide coupler in which the index profile is designed to encircle an
exceptional point. Nonreciprocal transmission occurs as a result of inevitable non-adiabatic transition and unidirectional gain saturation. We explain the essential mechanism with non-Hermitian Hamiltonian formalism
and numerically demonstrate 20 dB extinction ratio with experimentally presumable settings.
P8: A Complementary Chiral Metamaterial with Giant Electromagnetic Activity and Low Losses
Ismael Barba1 , Ana Grande1 , Ana Cristina Lopez-Cabeceira1 , Jose Represa1 , Gregorio J. MolinaCuberos2 , Oscar Fernandez3 , Alvaro Gomez3
1
Universidad de Valladolid (Spain), 2 Universidad de Murcia (Spain), 3 Universidad de Cantabria (Spain)
A planar complementary metamaterial for microwave frequencies, as well as its corresponding inverse struc83
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ture, have been designed and characterized. We only present in this summary numerical results (using CST
software), but our aim is to implement both using PCB technology, and characterize them experimentally.
P9: Design and analysis of a new double C-shaped miniaturized metamaterial for multiband applications
Mohammad Jakir Hossain, Mohammad Rashed Iqbal Faruque, Mohammad Tariqul Islam
Universiti Kebangsaan Malaysia (Malaysia)
Metamaterials have some exotic electromagnetic properties that can not meet the properties of natural materials. The results of the proposed metamaterial depict multi-band metamaterial response over frequency
range from 1 to 15 GHz.
P10: Metafilm consisting of spherical silica glass particles
Zhanna Dombrovskaya, Anton Zhuravlev
Lomonosov Moscow State University (Russia)
The polarizabilities of subwave spherical silica glass particles are investigated with taking material dispersion into account. It is shown that the ranges of negative values for electric and magnetic polarizabilities are
practically coinciding. This permits to use such particles for constructing DNG medium. A method for simultaneously calculating the effective thickness and the effective refractive index of the metafilm is proposed.
P11: Wideband Metamaterial Absorber with Polarization-dependent Operation
Osman bin Ayop1 , M. K. A. Rahim1 , N. A. Murad1 , N. A. Samsuri1 , F. Zubir1 , H. A. Majid2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Tun Hussein Onn Malaysia (Malaysia)
This paper presents the analysis of wideband metamaterial absorber (WBMMA). The resonating elements
are designed using a square patch with a removed-circle shape. A diamond slit is placed at the removed
area and connected to the square patch with thin copper bridges. The proposed structure achieves widest
bandwidth which is 13.11 percent between 8.34 and 9.51 GHz. For oblique incident angles, the operating
angle for wideband operation is limited to 20o for both TE and TM polarizations.
P12: Transmission properties of electromagnetic waves incident to moire superlattices exhibiting
quasiperiodic interference patterns
Jung-Wan Ryu1 , Jae-Hyung Han2 , Inbo Kim2 , Muhan Choi2
1
IBS Center for Theoretical Physics of Complex Systems (Korea), 2 Kyungpook National University (Korea)
We report the transmission properties of electromagnetic waves incident to moire superlattices with arbitrary
rotation angles, which exhibit quasiperiodic as well as periodic interference patterns. We also discuss the
potential applications of the moire superlattice, such as tunable metamaterials of which refractive index can
be controlled macroscopically.
P13: Permeability tensor for a metamaterial adjacent to a metal
Olga Porvatkina, Alexey Alexandrovich Tishchenko, Mikhail Nikolayevich Strikhanov
National Research Nuclear University MEPhI (Russia)
In our work we investigate magnetic properties of metamaterial-metal boundary. In our calculations we use
method of images as well as the local field theory. According to this, magnetic dipoles are regarded as sources
of the magnetostatic field. As a result, we obtain the modified Clausius-Mossotti relation for the metamaterial
bordering a metal.
P14: Modeling of 1D Dc-SQUID Metamaterials
Oksana Shramkova1 , N. Lazarides1 , A. V. Ustinov2 , G. P. Tsironis1
1
University of Crete (Greece), 2 Karlsruhe Institute of Technology (Germany)
We have created and examined the properties of superconducting metamaterial consisting of direct current
(dc-) superconducting quantum interference device (SQUID) and superconducting rod meta-atoms.
P15: Second-harmonic generation from toroidal moments of all-dielectric metasurfaces
Daniel Timbrell, Nicolae Coriolan Panoiu
University College London (United Kingdom)
We present an all-dielectric metamaterial with a pronounced nonlinear electromagnetic field due to a strong
toroidal dipole. A unit cell consisting of 4 GaAs cuboids is excited with a plane wave, causing the displacement
currents of each component to couple, forming a toroidal moment. The power radiated by the dipoles is
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calculated at the fundamental frequency and secondharmonic. The engendered toroidal dipole is shown to
be the primary origin of the second harmonic signal, which is magnetic in nature.
P16: RF Energy Harvesting Study Using Variable Metamaterial Structure
M. K. A Rahim, N. A. Samsuri, M. S. Zainudin
Universiti Teknologi Malaysia (Malaysia)
A metamaterial Split Ring Resonators (SRR) structure for electromagnetic energy harvesting is presented.
The resonance phenomenon inside the SRR structure indicates the capability to capture the electromagnetic
energy from the electromagnetic wave. This paper shows the pattern of the energy radiation in the structure.
Three structures are presented several design with single ring structure. The SRR structures are operated at
1.3 GHz and the square structure shows highest density of electric field, which contribute in energy harvesting
study.
P17: Spectral Scalability and Optical Spectra of Fractal Multilayer Structures: FDTD analysis
Sevket Simsek1 , Selami Palaz2 , Amirullah Mamedov3 , Ekmel Ozbay3
1
Hakkari University (Turkey), 2 Harran University (Turkey), 3 Bilkent University (Turkey)
In this report, we present an investigation of the optical properties and band structures for the photonic structures based on BaTiO3, (SrTiO3 and LiTaO3) with a Fibonacci sequence that can act as a multiwavelength
birefringet (Solc) filter.
P18: Magnetic collinear holograms with magnetophotonic crystals
Yuichi Nakamura, Ryosuke Isogai, Hiroyuki Takagi, Taichi Goto, Pang Boey Lim, Mitsuteru Inoue
Toyohashi University of Technology (Japan)
Magnetic volumetric hologram is recorded as magnetization directions through thermomagnetic recording.
To achieve bright reconstruction image, the use of magnetophotonic microcavity (MPM) for recording media
is effective to achieve high diffraction efficiency through the enhancement of Faraday rotation angle and
fringe depth. In this study, we demonstrated the effectiveness of MPM media to achieve bright reconstruction
image. In addition we also propose the MPM with heat-sink layers for retaining well-defined magnetic fringes
that results much high diffraction efficiency.
P19: Full-k-space flat bands in photonic crystals beyond the tight-binding picture
ChangQing Xu, Yun Lai
Soochow University (China)
Based on a band engineering method, we propose a theoretical prescription to create a full-k space flat band
in dielectric photonic crystals covering the whole Brillouin Zone. With wave functions distributed in air instead
of in the dielectrics, such a flat band represents a unique mechanism for achieving flat dispersions beyond
the tight-binding picture, which can enormously reduce the requirement of permittivity contrast in the system.
Finally, we demonstrate a unique application based on the full-k-space coverage of the flat band.
P20: Hybrid Graphene-Copper UWB Array Sensor for Brain Tumor Detection via Scattering Parameters in Microwave Detection System
Mohd Aminudin Bin Jamlos, Abdul Hafiizh Ismail
Universiti Malaysia Perlis (Malaysia)
Hybrid graphene-copper UWB array sensor is successfully detecting brain tumor using scattering parameter
(S-Parameter). The sensor made of graphene sheet as radiating element and copper for the rest conducting
parts. The sheet has 97percent carbon content, thichkness of 25um and conductivity of 35X108 s/m. Hybrid sensor recorded bandwidth of 2.0GHz-10.6GHz with gain of 4.5dB-15.1dB. MATLAB software utilized to
analyze S-parameter signals obtained from measurement. Tumor presence indicated by lower S-parameter
values compared to higher values recorded by tumor absence.
P21: Design of Monopole Graphene Antenna for 5G Applications
Siti Nor Hafizah Sa’don, Muhammad Ramlee Kamarudin, Fauzan Ahmad
Universiti Teknologi Malaysia (Malaysia)
Fifth Generation (5G) is the next evolution of communication technology service which provides better features. The technology in 5G is precipitated since the frequency spectrum used for cellular communication have
been used heavily and crowded. In this paper, a graphene antenna is proposed and designed at 15 GHz.
The impedance bandwidth obtained is about 4.2 GHz (12.6 GHz to 16.8 GHz) and gain of 2 dBi that are
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considerably sufficient for 5G antenna user terminal.
P22: Electric field induced visually observable change in light scattering and absorption in doped
ZnO nanowire colloidal suspensions
Martin Timusk, Andris Sutka, Maris Knite
Riga Technical University (Latvia)
We describe a novel electro-optical behavior of colloidal suspensions of doped ZnO nanowires (NWs). We
show that suspension of doped, visible light absorbing ZnO NWs in optically transparent and low dielectric
permittivity medium responds to electrostatic charges on the outer walls of the dispersion-containing glass vial
and transition from chaotic to partially ordered state occurs. As a consequence of this negentropic transition
strong visually perceptible variation of optical properties occurs in the form of color brightness change.
P23: Plasmonic Sensing Below the Quantum Noise Limit with Intensity Squeezed Light
Benjamin Lawrie, Raphael Pooser
Oak Ridge National Laboratory (USA)
Surface plasmon resonance sensors have found widespread application for biochemical sensing, but they
are increasingly limited by the quantum statistics of light. Replacing the classical laser readout with intensity
squeezed states allows for either a 2.5 dB reduction of the noise floor or a 5 dB increase in signal amplitude,
enabling detection of trace signatures previously buried in quantum noise.
P24: High-Precision Fabrication Technology for Gold Nanoparticle Assemblies with Sub-10 nm Nanogaps
Yusuke Niimura, Naoto Oonishi, Kyohei Okubo, Edwin Carlen
University of Tsukuba (Japan)
A top-down fabrication technology will be presented to realize gold nanoparticle assemblies with precise
size and position for nanoplasmonics applications. The fabrication technology is based on conventional highprecision micromachining to form nanotemplate surfaces, and new deterministic template-guided thermal
dewetting to form crystalline nanoparticle assemblies with high precision. High-precision deterministic thermal
dewetting is accomplished with isolated nanotemplates to realize precise volumes of gold with nanometerscale separations. The nanoparticle assemblies are formed with precise position and sub-10 nm nanogaps.
P25: Q-factor Tuning of Gold Nanoresonators by Thermal Annealing
Naoto Oonishi, Yusuke Niimura, Kyohei Okubo, Edwin Carlen
University of Tsukuba (Japan)
Nanoplasmonic resonators generate large electric fields by concentrating optical energy on metal nanostructures, however, the field enhancement is limited due to energy losses at optical frequencies, which is
quantified by the resonance quality-factor. The quality-factor of gold nanoplasmonic resonators is limited to Q
= 20 due to intrinsic material and extrinsic nanostructure properties. We use post-deposition annealing at low
temperatures to activate grain growth and to reduce surface roughness. The quality-factor can be increased
and resonance energy fine-tuned.
P26: Fine tuning of submicron pattern dimensions in Displacement Talbot Lithography
Emmanuel Damien Le Boulbar, Philip Adam‘ Shields
University of Bath (United Kingdom)
We report the lithography of submicron hexagonal and linear grating patterns using the new lithography
technique of Displacement Talbot Lithography. The filling factor was accurately controlled, from 8percent
to 17percent, by varying the exposure dose. For a 600 nm pitch hexagonal pattern, we report a standard
deviation of 3 nm on the average 208 nm hole diameter for an exposure dose of 35 mJ/cm2. High-aspect ratio
resist patterns (>3.5) were achieved for a linear grating with a period of 400nm.
P27: Tunable optical properties of some rare earth elements doped mayenite Ca12Al14O33 nanopowders elaborated by oxalate precursor route
Mohamed M. Rashad1 , A. G. Mostafa2 , D. A. Rayan1
1
Central Metallurgical Research and Development Institute (Egypt), 2 Al-Azhar University (Egypt)
Rare earth (RE) ions doped mayenite Ca12Al14-xRExO33, nanopowders (where RE=La,Y and Gd, and x =
0 to 1.0) were synthesized using the oxalate precursor technique. The as-prepared precursors were calcined
at 800oC for 2h.
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P28: Optical Properties of Metal-Dielectric Nanocomposite Coatings Obtained by Gas Phase Condensation (GPC) and PECVD processes
Harry Nizard1 , M. Maicu1 , D. Hecker1 , D. Gloess1 , P. Frach1 , G. Gerlach2
1
Fraunhofer Institute (Germany), 2 Dresden Technical University (Germany)
We present the optical responses of nanocomposite coatings consisting of metallic nanoparticles embedded
into a thin film matrix material. Metal nanoparticles (Ti, Ag, Au, Pt) are synthesized by Gas Flow Sputtering
(GFS). Organic or Inorganic Dielectric Matrix coatings are obtained by Low-Pressure Plasma-Enhanced CVD.
Optical analysis are carried out using UV/VIS Spectrophotometer and VASE Variable Angle Spectroscopic
Ellipsometry.
P29: Soft-glass scalable metamaterials: fiber drawn split ring resonators
Alessio Stefani, Juliano Grigoleto Hayashi, Xiaoli Tang, Alexander Argyros
The University of Sydney (Australia)
We report on the fabrication by fiber drawing of split ring resonators (SRRs) made of soft-glass. We demonstrate how the structure can be, with this technique, easily scaled at least 2 orders of magnitude, tuning the
magnetic response from the THz regime to the Infrared. We also investigate experimentally and numerically
how the resonant frequency is affected by the SRRs orientation, distance and positioning within a SRRs array.
P30: Absorption effects and non-Bragg gap solitons in quasiperiodic Fibonacci and disordered Kerrmetamaterial heterostructures
Ernesto Reyes Gomez1 , Solange Bessa Cavalcanti2 , Luiz Eduardo Oliveira3
1
Universidad de Antioquia (Colombia), 2 Universidade Federal de Alagoas (Brazil), 3 Universidade Estadual
de Campinas (Brazil)
The optical transmission properties of light in one-dimensional disordered layered systems with metamaterials
inclusions are theoretically studied. Layer widths of both nonlinear and metamaterial slabs are considered as
random variables without any correlation between them. A thorough investigation is performed of solitoninduced transparency and influence of disorder in the vicinities of a Bragg gap and non-Bragg zero-n and
bulk-like longitudinal plasmon-polariton gaps. It is shown that the Bragg-gap soliton reveals itself as the most
robust against disorder.
P31: The natural way of obtaining metamaterial by thermoradiation treatment of iron oxide doped
potassium-aluminum-Boron glass
Amriddin Nuritdinovich Salakhitdinov1 , Maysara Kamolidinovna Salakhitdinova2 , N. S. Saydirasulov1 ,
Aminjon Abdurashidovich Yusupov2 , Elvira Memetovna Ibragimova3
1
Tashkent University (Uzbekistan), 2 Samarkand State University (Uzbekistan), 3 Institute of Nuclear Physics
Academy of Science (Uzbekistan)
The glass samples of 25K2Ox25Al2O3x50B2O3 composition (mol. percent) with addition of 3.0 mass. percent
Fe2O3 were gamma-irradiated to the dose of 1.7 MR at 423 K showed optical response characteristic for
metamaterial. The effect was explained by the developed phenomenological theory of the radiation-induced
processes at the thermoradiation treatment.
P32: Metal-Dielectric-Semiconductor Hyperbolic Metamaterial for selectable canalization wavelength
Vincenzo Caligiuri, Antonio De Luca
University of Calabria (Italy)
Here we set up a simple method to select the transition wavelength of an epsilon near zero and pole HMM
within almost the entire visible range without changing the constituent fundamental materials.
P33: Optical response of periodic/quasiperiodic structures containing a left-handed material
Miller Toledo-Solano, Martha Palomino, Isabel Paredes-Perez
Benemerita Universidad Autonoma de Puebla (Mexico)
We investigated the optical properties of a one-dimensional photonic periodic/quasiperiodic (PC/QC) structure. This structure is composed of alternating layers of a right-handed material and a left-handed material.
Using attenuated total reflectivity (ATR) geometry, we investigate the coupling of light with the plasmons on
the surface of the metamaterial layers. Bands of surface modes with a significant selective spatial localization
confined almost totally within the periodic or quasiperiodic section were observed.
P34: Optical metamaterial slabs based on hexagonal arrays of metallic nano-resonators with three87
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fold rotational symmetry
Mircea Giloan, Robert Gutt, Gavril Saplacan
Company for Applied Informatics (Romania)
Metallic nano-resonators with three-fold rotational symmetry are used to design meta-atoms with different
geometries distributed in hexagonal arrays separated by dielectric films. The nature of the hybridized plasmon modes allowed by the designed meta-atoms leads to extraordinary optical properties for the resulted
metamaterial slabs like negative refractive index and high chirality.
P35: Simulation of graphene-negative index waveguide structure model for solar cell
Nour El Houda Hissi1 , Saida Bahsine1 , Bouchra Mokhtari1 , Noureddine Cherkaoui Eddeqaqi1 , Mohammed Musa Shabat2 , Jacques Atangana3
1
Moulay Ismail University (Morocco), 2 Islamic University (Palestine), 3 University of Yaounde I (Cameroon)
The aim of this work is to construct a novel waveguide structure which is acting as solar cell, containing
graphene and negative index materials to minimize the reflection of the light incident on such structure and to
increase the transmission and the absorption of light. Optical modeling and simulation based on the transfer
matrix method are used to investigate the effects of the physical parameters of the proposed waveguide
structure on the transmittance, reflectance and the absorptance.
P36: A New Metasurface based on Meta-atom Cluster for Terahertz Applications
Md. Moinul Islam, Mohammad Rashed Iqbal Faruque, Mohammad Tariqul Islam
Universiti Kebangsaan Malaysia (Malaysia)
A new metasurface having magnetic and electric resonances shows left-handed metamaterial characteristics
in the terahertz frequency is presented for terahertz applications based on meta-atom cluster. The meta-atom
cluster consists of split-ring resonators based on conducting wire strip printed on RT5880LZ material. The
calculation of the unloaded Q-factor is executed for the meta-atom cluster based metasurface in the terahertz
frequency. The test of the metasurface has been performed using different dielectric samples loaded.
P37: Coupled-Mode Equations for Third-Harmonic Generation in A One-Dimensional PIM/NIM Structure
Surawut Wicharn1 , Prathan Buranasiri2 , Witoon Yindeesuk2
1
Srinakharinwirot University (Thailand), 2 King Mongkut’s Institute of Technology (Thailand)
We formulate a completed set of rigorous coupled-mode equations by using method of multiple-scale. These coupled-mode equations are used to describe a third-harmonic generation in a one-dimensional periodic
structure containing stack of positive-index material (PIM) and third-order nonlinear negative-index material (NIM) layers. We found that the generated third-harmonic pulse amplitudes in forward- and backwarddirections from PIM/NIM periodic structure can be enhanced due to backward phase matching technique and
band-edge field enhancement.
P38: Coupling effects between three dimensional split ring resonators
Che-Chin Chen, M. H. Shiao, Y. H. Lin, C. N. Hsiao
Instrument Technology Research Center - NARlabs (Taiwan)
In this study, the coupling effects between three dimensional split ring resonators (SRRs) were presented by
changing the inter distance of SRRs. The transmission spectra revealed that the transmission amplitudes and
the resonance frequencies were increased with deceasing the inter distance of the SRRs. The simulations
were evidentially retrieved as well. We conclude that the electric field strength inside the SRR dominated the
couplings between the SRRs.
P39: Refraction at a flat interface of an optically anisotropic metamaterial
Anja Bregar, Miha Ravnik
University of Ljubljana (Slovenia)
Refraction at a boundary between isotropic dielectric and an anisotropic hyperbolic metamaterial is theoretically studied for different angles between the optical axis and the metamaterial surface. Different regimes
of negative and positive refraction are explored and various cases of the dependence of refraction and absorption on the incident angle of light are shown. These examples are further illustrated with finite-difference
time-domain simulations.
P40: Left-Handed Compact MIMO Antenna Array Based on Wire Spiral Resonator for 5 GHz Wireless
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Applications
Abdulrahman Shueai Mohsen Alqadami, Mohd Faizal Jamlos, Ping Jack Soh
Universiti Malaysia Perlis (Malaysia)
A compact coplanar waveguide(CPW)-fed Multiple Input Multiple Output (MIMO) antenna array based on
left-handed wire loaded spiral resonators (SR) is presented. The proposed antenna consists of a 2a-2 wire
SR with two symmetrical microstrip feed lines, each line exciting 1x2 SR. Left-handed (LH) metamaterial unit
cells are placed on its reverse side and arranged in a 2a-3 array. A reflection coefficient of less than -10 dB,
mutual coupling of less than -20 dB, and 0.004 correlation coefficient are achieved.
P41: Miniaturized Dual Band Antenna Array with Double Negative (DNG) Metamaterial for Wireless
Applications
Abdulrahman Shueai Mohsen Alqadami, Mohd Faizal Jamlos, Ping Jack Soh
Universiti Malaysia Perlis (Malaysia)
A miniaturized dual band antenna array using a negative index metamaterial is presented for WiMax/WLAN
applications. A left-handed metamaterial unit cell is located on the rear side of the antenna array. The unit cell
combined form spilt ring resonator (SRR), square electric ring resonator (SERR) and rectangular electrical
coupled (ELC) resonator. The simulated S11 shows a 40.25 percent bandwidth for the first band and 3.36
percent for the second band and greater than 95 percent radiation efficiencies are obtained for both bands.
P42: All-optical phase-change tuning in hybrid dielectric EIT-like metamaterials
Emilija Petronijevic, Roberto Li Voti, Alessandro Belardini, Grigore Leahu, Gianmario Cesarini, Concita Sibilia
La Sapienza University of Rome (Italy)
Here we investigate the all-optical tuning of the EIT-like resonances in dielectric metamaterials based on Si
bright and dark resonators. The tuning is enabled by a thin layer of phase change material which changes its
optical properties in optical telecommunications range.
P43: Metamaterial Absorber Insensitive To Polarization and Incidence Angle Based on Multi-Layer
Structure
Leila Belaid, R. Oussaid
Houari Boumediene University (Algeria)
This paper presents design and simulation of a metamaterial absorber insensitive to polarization and incidence angle. The simulated results have given an absorbance magnitude of about 98 percent with a FWHM
close to 0.5 GHz for two types of polarizations, and for the TE and TM modes. In addition, we also studied
the influence of the substrate on the absorption coefficient and FWHM.
P44: Antenna-assisted picosecond control of the vanadium dioxide phase transition through resonant
near-field excitation
Otto L. Muskens1 , Yudong Wang1 , Kees de Groot1 , Luca Bergamini2 , Nerea Zabala2 , Javier Aizpurua2 ,
Jeff Gaskell3 , David Sheel3
1
University of Southampton (United Kingdom), 2 DIPC (Spain), 3 University of Salford (United Kingdom)
We demonstrate that plasmonic nanoantennas enable control of a local phase transition in vanadium dioxide
through resonant local field enhancement and enhanced absorption at the nanoantenna tips. Optical pumping
using picosecond laser shows a large modulation of up to 20 percent of the plasmon resonance, where the
antenna is used both to enhance the excitation and readout of the nanoscale phase transition.
P45: Electrically-Small Dielectric Resonator Elements for Electromagnetic Energy Harvestin
Ahmed Ashoor, Omar Ramahi
University of Waterloo (Canada)
This summary presents electrically-small resonator elements as efficient energy harvesters in the microwave
regime. The study examined different array factors that affect the efficiency of the harvested power. The
coupling between adjacent elements and the self-coupling within each unit were studied to highlight their
effects on the overall harvesting efficiency.
P46: Near infrared distributed feedback surface plasmon lasers
Elham Karami Keshmarzi1 , R. Niall Tait1 , Pierre Berini2
1
Carleton University (Canada), 2 University of Ottawa (Canada)
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Distributed feedback lasers are realized at near-infrared wavelengths using Bragg gratings in a long range
surface plasmon polariton structure. DFB lasers comprise a 20 nm thick, stepped-in-width Au stripe on a silica
substrate, covered with 600 nm thick dye-doped (IR-140) PMMA layer. The lasers are pumped optically using
10 ns laser pulses at 810 nm and emit at about 880 nm with a full width half maximum (FWHM) linewidth of
about 3 nm.
P47: Coupling to Photonic Crystal Waveguide by Polarization Tailored Free Space Beam
A. Mahdavi, P. Banzer, F. Vollmer
Max-Planck Institute for the Science of Light (Germany)
Photonic crystals are ideal to localize light in micro cavities with sub-wavelength modal volumes show quality
factors of up to 2 million. Furthermore waveguides with high dispersion and slow light characteristics can be
realized. We demonstrate an alternative method for coupling to waveguide modes and excitation of microcavities by tailoring the state of polarization in the diffraction limited spot of a focused light beam impinging
normally onto the waveguide.
P48: Focusing of EM Wave through Square-microhole Aperture
Santosh K. Maurya, Suyog R. Hawal, Raghvendra P. Chaudhary, Shobha Shukla, Sumit Saxena
Indian Institute of Technology Bombay (India)
Utilization of surface plasmons has drastically increased the performance of Photodevices due to increased
light matter interactions. Recently, we have reported circular micro-hole patterned on gold thin layer. It exhibited extraordinary transmission in the visible range. Radiative surface plasmons couple incident waves at the
transmitting edges of the microhole aperture, results in extraordinary transmission. In this report, using FDTD
method, we comparatively studied the focusing abilities of square shaped micro hole and circular microhole.
P49: Refractory metal based broadband, omnidirectional and polarization-insensitive light absorber
for high-temperature applications
Manohar Chirumamilla1 , Alexander S. Roberts2 , Fei Ding1 , Deyong Wang1 , Sergey I. Bozhevolnyi2 ,
Kjeld Pedersen1
1
Aalborg University (Denmark), 2 University of Southern Denmark (Denmark)
Perfect broadband absorbers based on metal-insulator-metal resonators using refractory materials (tungsten
and alumina) are reported for energy harvesting/conversion applications. The absorption efficiency is higher
than 90percent over a broad spectral region with a maximum of 98percent around 500 nm. Omnidirectional
and polarization-insensitive absorption of incident light is observed for broad angles of incidence. Thermal
stability of the substrate is tested at high working temperature (800 C).
P50: Towards the Polarization Control of the Directional Scattering of Semiconductor Nanodisks
Ricardo Vergaz1 , Francisco Algorri1 , Alexander Cuadrado2 , Jose Manuel Sanchez-Pena1 , Braulio GarciaCamara1
1
Carlos III University of Madrid (Spain), 2 Laser Processing Group (Spain)
In this work we analyze the sensitivity of the directional scattering conditions in semiconductor nanodisks with
the polarization of the incident light. The possibility to reach or not this directional scattering as a function
of the polarization of the incident beam could be very interesting for the design of new all-optical devices for
optical communications and computing.
P51: Zero-frequency and extremely slow edge states in mechanical granular graphene
Li-Yang Zheng, Vincent Tournat, Georgios Theocharis, Vitalyi Gusev
Universite du Maine (France)
The edge states in a semi-infinite mechanical granular graphene with the zigzag and armchair edge configurations are investigated. The dispersion curves of edge states are theoretically derived and numerically
analyzed in detail. We also study the quasi-flat edge modes when the torsional or/and bending rigidities are
weak. These quasi-flat dispersion curves, supporting the propagation of waves with extremely slow group
velocity, tend to be perfect zero-frequency modes for zero torsional rigidity or vanish for zero bending rigidity.
10:40 - 12:30 — Malaga
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Session 2A2
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
10:40 : Invited talk
Single-Particle Absorption Spectroscopy of Plasmonic Nanostructures
Stephan Link
Rice University (USA)
Single-particle absorption spectroscopy on strongly scattering plasmonic nanoparticles is investigated by
photothermal microscopy with a supercontinuum laser. The absorption spectra are compared to scattering
spectra of the same individual gold nanoparticles and correlated with electron microscopy images that characterize the size and shape of the nanostructures. For many applications of plasmonic nanostructures, absorption and scattering cross sections and lineshapes are important to distinguish, possible with single-particle
spectroscopy that also removes nanoparticle heterogeneity.
11:00 : Invited talk
Plasmonics of Dielectric-Metallic Hybrid Nanostructures
Huanjun Chen, Hao Wang, Zhang-Kai Zhou
Sun Yat-sen University (China)
Hybrid nanostructures composed of dielectric and metallic components can exhibit intriguing plasmonic properties, which can be utilized for tailoring and enhancing various light-matter interactions. Two recent progresses of our study will be presented. We will first show that Au-silicon nanosphere dimers can exhibit strong
unidirectional light scattering behaviors in the visible range. Secondly, we will demonstrate the nonlinear
optical properties of hybrid dielectric and plasmonic nanostructure arrays, which can further be utilized for
enhancing the photocurrent generation of semiconductors.
11:20 : Invited talk
Ultrafast hot electrons spice up localized plasmons
Bruno Palpant, T. Labouret, J. F. Audibert, R. Pansu
Universite Paris-Saclay (France)
Ultrashort light pulses absorbed by plasmonic nanostructures are not only able to transiently modulate their
optical properties, but can also lead to the production of a nanoscale plasma, which in the enhanced local
electromagnetic field may generate reactive oxygen species in water over a large area, opening interesting
outlooks for photodynamic therapy. We demonstrate this process on single gold nanorods by fluorescence
imaging and explain the mechanisms involved by an appropriate theoretical model.
11:40 : Invited talk
Hyperlensing at NIR Frequencies Using a Hemi-spherical Metallic Nanowire Lens in Sea-urchin Geometry
Ankit Bisht1 , Wei He2 , Xiaotian Wang1 , Linda Y. L. Wu2 , Xiaodong Chen1 , Shuzhou Li1
1
Nanyang Technology University (Singapore), 2 Singapore Institute of Manufacturing Technology (Singapore)
Label-free and real time far-field super-resolution imaging (hyperlensing) at the nanoscale is of significant
interest where sub-wavelength imaging remains a constraint because of Abbe’s diffraction limit. Though by
utilizing anisotropic permittivities, metal-dielectric multilayers have been successful in reconstructing the highfrequency components from sub-wavelength objects, yet they remain cumbersome and expensive to make.
12:00 : Keynote talk
Tunable Light-matter Interaction With Quantum Spillover and Super-radiance in Two Dimensional Molecular Aggregates
Nicholas X. Fang
Massachusetts Institute of Technology (USA)
In this talk I will report our recent efforts on controlling light absorption and emission process through quantum effects in sub-20nm scale coatings. For example, we experimentally demonstrated strong absorption in
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the visible spectrum by thin oxides less than 20nm of thickness assisted by silver films. We found such a
broadband light absorption below the bandgap of the oxide is a manifestation of quantum electron tunneling
that penetrate into the thin oxide layer, and it is controlled by the static dielectric constant of the oxide instead
of dopant. We also found a dominant fluorescent decay channel in a two-dimensional molecular aggregate as
a result of the strong and coherent dipole-dipole interaction mediated by a metallic substrate. This unique mechanism leads to an ultrafast fluorescent decay and ten-times greater energy dissipation rate than expected.
I will also discuss application of these nanostructure for efficient light harvesting and controllable emission,
with potential impact in high resolution mid-IR spectroscopy and imaging.
10:40 - 12:45 — Ronda
Session 2A3
SP22. Microcavity Polaritons: fundamental physics and devices
Organized by: Alberto Bramati
Chaired by: Alberto Bramati
10:40 : Keynote talk
Microcavity polaritons: fundamental physics and devices
Benoit Deveaud
Ecole Polytechnique Federale de Lausanne (Switzerland)
Polaritons are half-light half matter quasiparticles resulting from the strong coupling of photons confined in a
microcavity with excitons confined in a quantum well. Polariton condensates may be created both spontaneously through a standard phase transition towards a Bose Einstein condensate, or be resonantly driven with a
well-defined initial phase, speed and spatial distribution. We review here their main properties.
11:10 : Invited talk
Spin selective filtering and spin textures in quasi-one-dimensional polariton condensates
C. Anton1 , T. Gao2 , S. Morina3 , T. C. H. Liew3 , M. D. Martin1 , Z. Hatzopoulos4 , P. S. Eldridge2 , P. G.
Savvidis2 , Luis Vina1
1
Universidad Autonoma de Madrid (Spain), 2 FORTH-IESL (Greece), 3 Nanyang Technological University (Singapore), 4 University of Crete (Greece)
We report on the realization of a novel spin-selective spatial filter mediated by propagating exciton-polariton
condensate bullets in a quasi-one-dimensional (1D) semiconductor microcavity. We also show that, under
circularly polarized, continuous-wave, non-resonant excitation, spin textures whose phase depends on the
emission energy are formed.
11:30 : Invited talk
Exciton-polariton condensates in non-Hermitian potentials
Elena Ostrovskaya
The Australian National University (Australia)
Spatial shaping of an optical pump has been long recognized as a versatile tool for controlling and directing
the flow of condensed microcavity polaritons. An off-resonant, incoherent optical pump creates both excitonpolaritons and an effective non-Hermitian trapping potential. We show that optically induced potentials enable
exploration of non-Hermitian quantum physics with microcavity polaritons. In particular, we demonstrate, both
experimentally and theoretically, non-trivial mode selection in tailored potentials, observation of exceptional
points, and visualization of the topological Berry phase.
11:50 : Invited talk
Instabilities of polariton condensates in patterned microcavities
Michiel Wouters1 , V. N. Gladilin1 , D. De Bernardis2
1
Universiteit Antwerpen (Belgium), 2 University of Trento (Italy)
We present a theoretical analysis of the instability of polariton condensates. When the repulsive interactions
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between polaritons and reservoir excitons are sufficiently strong, the effective polariton-polariton interaction
becomes attractive. For lossless bose gases this instability leads to the formation of bright solitons. With gain
and losses present, a chaotic steady state arises. We discuss the different regimes, which include phase
chaos, described by the Kuramoto-Sivashinsky equation, and defect chaos.
12:10 : Collective Scattering of an Incoherently Driven Exciton-Polariton Condensate in Disordered
Environment
Maciej Pieczarka1 , Marcin Syperek1 , Lukasz Dusanowski1 , Jan Misiewicz1 , Fabian Langer2 , Martin
Kamp2 , Christian Schneider2 , Sven Hoefling2 , Alexey Kavokin3 , Grzegorz Sek1
1
Wroclaw University of Science and Technology (Poland), 2 University of Wurzburg (Germany), 3 Saint Petersburg State University (Russia)
We observe renormalization of excitation branches of an expanding polariton condensate, generated by a
tightly focused nonresonant laser pump. Polaritons scattered on the intrinsic sample disorder occupy normal
and ghost branches, revealing peculiar polarization properties in collective microscopic scattering processes
of polaritons. We track the time evolution of highly excited polariton condensate and resolve the evolution of
the excitation branches.
12:25 : Invited talk
Nonequilibrium thermodynamics of quantum fluids of polaritons
Sebastian Klembt1 , Thorsten Klein2 , Anna Minguzzi3 , Maxime Richard4
1
Wurzburg University (Germany), 2 University of Bremen (Germany), 3 LPMMC-CNRS (France), 4 Universite
Grenoble Alpes (France)
Owing to their mixed light-matter nature and their lifetime usually shorter than their thermalization time,
exciton-polaritons in semiconductor microcavity constitute a very specific type of quantum fluids. In this work
we present some experimental investigation focused on the nonequilibrium properties of such a fluid, and
more specifically, on the way it is transports and stores heat.
10:40 - 12:10 — Nerja
Session 2A4
SP8. Metasurface and its application in optical devices
Organized by: Shuang Zhang, Jensen Li and Xianzhong Chen
Chaired by: Jensen Li and Xianzhong Chen
10:40 : Invited talk
Phase manipulation of nonlinear harmonic generation with plasmonic metasurfaces
Thomas Zentgraf1 , Guixin Li2 , Shumei Chen2 , Franziska Zeuner1 , Nitipat Pholchai3 , Bernhard Reineke1 ,
Kok-Wai Cheah4 , Shuang Zhang2
1
University of Paderborn (Germany), 2 University of Birmingham (United Kingdom), 3 King Mongkut’s University of Technology (Thailand), 4 Hong Kong Baptist University (Hong Kong)
Tailoring nonlinear optical properties is crucial in nonlinear optics. Here we will demonstrate nonlinear metamaterials with homogeneous linear properties but continuously controllable phase of the local effective nonlinear polarizability. Such continuous phase engineering of effective nonlinear polarizabilities enables complete control of propagation of nonlinear signals and seamlessly combines the generation and manipulation
of harmonic waves. We will show how the symmetry of meta-atoms influences the nonlinear phase and how
versatile second harmonic processes can be controlled on sub-wavelength scales.
11:00 : Invited talk
High-Eciency Metasurface Flat Lenses
Chun-Chieh Chang1 , Beibei Zeng1 , Abul K. Azad1 , Anatoly Efimov1 , Daniel Headland2 , Withawat Withayachumnank
Derek Abbott2 , Antoinette J Taylor1 , Hou-Tong Chen1
1
Los Alamos National Laboratory (USA), 2 The University of Adelaide (Australia)
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Metasurfaces provide unprecedented opportunities in creating novel optical devices in manipulating amplitude, phase, and polarization states. It has been shown that few-layer metasurfaces can dramatically improve
the device performance in eciency and bandwidth. Here we present the design, fabrication, and characterization of metasurface at lenses based on three-layer metasurfaces in the microwave and terahertz frequency
ranges, achieving outstanding performance toward real world applications.
11:20 : Keynote talk
Metamaterial Elements as Huygens Radiators
Omar Ramahi
University of Waterloo (Canada)
Metamaterial particles are essentially electrically-small radiators with polarization dependency. Previous works
on metamaterials was concerned primarily with using such particles to achieve homogeneous media that
enabled unconventional propagation. The fact that the particles are radiators suggests that they can be
used as antennas. In antennas, not only radiation but radiation e ciency is critical. In fact, because of their
electrically-small size, metamaterial elements can be considered as Huygens radiators. With this perspective,
a systematic procedure for designing directional and e cient antennas can be developed as we demonstrate
here.
11:50 : Invited talk
Reflective metasurface and metadevice
Wei-Yi Tsai1 , Wei Ting Chen1 , Yao-Wei Huang1 , Pin Chieh Wu1 , Chun Yen Liao1 , Kuang-Yu Yang1 , HaoTsun Lin1 , Vassili Fedotov2 , Greg Sun3 , Shulin Sun4 , Lei Zhou4 , Ai Qun Liu5 , Nikolay I. Zheludev2 , Din
Ping Tsai1
1
National Taiwan University (Taiwan), 2 University of Southampton (United Kingdom), 3 University of Massachusetts (USA), 4 Fudan University (China), 5 Nanyang Technological University (Singapore)
Metamaterial and Metasurface have recently been studied for the electromagnetic manipulation and observation of unusual optical phenomena. In this paper, we demonstrate the reflective-type and high efficiency
metasurface in visible region and a polarization controllable meta-hologram by adequately designing. The full
color meta-hologram can also be achieved based on aluminum metasurface. Furthermore, we exhibit metadevice of circular polarization generator. Our works provide potentials to develop novel devices which are not
limited by material composition.
10:40 - 12:15 — Antequera
Session 2A5
SP4. Plasmonics and Nanophotonics Based on Graphene and Related 2D
Materials
Organized by: Mohamed Farhat and Pai-Yen Chen
Chaired by: Mohamed Farhat and Pai-Yen Chen
10:40 : Invited talk
Effect of Remote Impurity Layer on THz gain in Graphene Bilayers with Population Inversion
Maxim Ryzhii1 , Taiichi Otsuji2 , Victor Ryzhii2 , Vladimir Mitin3 , Michael Shur4
1
University of Aizu (Japan), 2 Tohoku University (Japan), 3 University at Buffalo (USA), 4 Rensselaer Polytechnic Institute (USA)
We demonstrate that the indirect interband generation of photons in hybrid graphene bilayer structures with
population inversion can surpass their intraband (Drude) absorption, resulting in rather large absolute values
of the negative dynamic conductivity in a wide range of terahertz frequencies at room temperatures. Thus,
the hybrid graphene heterostructures under consideration can be perspective for THz lasers.
11:00 : Invited talk
Experimental Demonstration of Unidirectional Terahertz Waves Propagation Using Graphene
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Michele Tamagnone1 , Clara Fausta Moldovan1 , Jean-Marie Poumirol2 , Alexey B. Kuzmenko2 , Adrian
Mihai Ionescu1 , Juan Ramon Mosig1
1
Ecole Polytechnique Federale de Lausanne (Switzerland), 2 Universite de Geneve (Switzerland)
We present the experimental demonstration of the first terahertz isolator (working frequency larger than 1
THz), obtained using the non-reciprocal electromagnetic properties of graphene under magnetostatic bias.
The presentation will cover in detail the design, fabrication and measurement of the device. The isolator
exhibits unidirectional terahertz propagation in reflection for circularly polarized waves, showing two bands
at 2.9 and 7.6 terahertz respectively. In spite of the simplicity of design and fabrication, the proposed device
geometry achieves near-optimal performances.
11:20 : Invited talk
Classical and quantum plasmonics in nanostructured graphene
Martijn Wubs, Thomas Christensen, Weihua Wang, Antti-Pekka Jauho, N. Asger Mortensen
Technical University of Denmark (Denmark)
In graphene plasmonics, the classical description of graphene as a sheet with bulk conductivity breaks down
for nanostructured pieces of graphene, because finite-size effects emerge, resonance shifts for example.
Unlike for noble metals where this size dependence is well captured by a hydrodynamical model for the freeelectron response, in graphene additional competing size-dependent effects due to edge states can occur
which are even the dominant effects.
11:40 : Invited talk
Electrical Detection of Graphene Plasmons
Renwen Yu, Javier Garcia de Abajo
ICFO-Institut de Ciencies Fotoniques (Spain)
Plasmons, the collective oscillations of electrons in conducting materials, have the potential to interface electronic and photonic devices, and thus are widely studied in nanophotonics. Graphene, which has extraordinary
optoelectronic properties due to its peculiar band structure, has proven to be an excellent plasmonic material,
offering extremely strong, sub-wavelength electric field concentration with low loss. Here we predict extremely
compact on-chip electrical detection of single plasmons supported by nanostructured graphene.
12:00 : Long-range Tamm surface plasmons in graphene metamaterials
Hodjat Hajian1 , Humeyra Caglayan2 , Ekmel Ozbay1
1
Bilkent University (Turkey), 2 Abdullah Gul University (Turkey)
Considering the Ohmic losses of graphene, we study linear Tamm surface plasmons supported by airterminated graphene metamaterials composed of alternating layers of graphene and dielectric. We theoretically prove that with sufficiently large thickness of the dielectric layers, i.e. 100 nm, the Tamm surface
plasmons have considerably large (small) propagation (localization) length, comparable with those of a single
layer of graphene.
12:15 - 12:45 — Antequera
Session 2A6
SP2. Acoustic, Mechanical and Thermal Metamaterials
Organized by: Mohamed Farhat and Sebastien Guenneau
Chaired by: Mohamed Farhat and Sebastien Guenneau
12:15 : Three-dimensional Resonant Elastic Metamaterials with Fluid-like Property
Guancong Ma1 , Caixing Fu1 , Guanghao Wang2 , Philipp del-Hougne1 , Johan Christensen3 , Yun Lai2 ,
Ping Sheng1
1
Hong Kong University of Science and Technology (Hong Kong), 2 Soochow University (China), 3 Technical
University of Denmark (Denmark)
We present a three-dimensional anisotropic resonant elastic metamaterial. Due to anisotropy, translation
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eigenmodes are not degenerate along all spatial directions. Repeating the unit cells in one direction can lead
to an elastic rod, which can withstand both longitudinal and flexural waves. Band structure analysis shows
that within a finite frequency regime, only longitudinal wave can propagate, whereas transverse waves are
forbidden - a hallmark property conventionally found only in fluids. This finding is realized with experiments.
12:30 : Double Zero Index Acoustic Metamaterial
Marc Dubois, Chengzhi Shi, Yuan Wang, Xiang Zhang
University of California (USA)
Acoustic plane waves, critical to imaging, sensing, detecting, etc., are usually difficult to generate because
acoustic sources are small compared to the wavelength. Recently developed zero refractive index materials
for electromagnetic waves provide a solution to plane wave generation because of the infinite phase velocity of
waves travelling through them. We experimentally demonstrate that double zero index acoustic metamaterial
has the ability to convert efficiently the cylindrical wavefront emitted by an embedded point source into a
collimated planar wavefront.
10:40 - 12:10 — Fuengirola
Session 2A7
SP15. Non-linear and ultra-fast spectroscopy of nano- and meta-materials
Organized by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
Chaired by: Pierre-Michel Adam, Pierre-Francois Brevet and Giulio Cerullo
10:40 : Invited talk
Ultrafast all-optical control of the coherent nonlinear emission of multi-resonant plasmonic metasurfaces
Giovanni Sartorello1 , Nicolas Olivier2 , Jingjing Zhang3 , Weisheng Yue4 , David J. Gosztola5 , Gary P.
Wiederrecht5 , Gregory Wurtz6 , Anatoly V. Zayats1
1
King’s College London (United Kingdom), 2 University Of Sheffield (United Kingdom), 3 Nanyang Technological University (Singapore), 4 University of Manchester (United Kingdom), 5 Argonne National Laboratory
(USA), 6 University of North Florida (USA)
We demonstrate and rationalize the ultrafast modulation of the coherent nonlinear emission from plasmonic
metasurfaces using all-optical means.
11:00 : Invited talk
Nonlinear Optical Effects in Nanoantennas
Anke Horneber1 , Jiyong Wang1 , Jeremy Butet2 , Anne-Laure Baudrion3 , Andreas Horrer1 , Olivier J. F.
Martin2 , Monika Fleischer1 , Alfred J. Meixner1 , Pierre-Michel Adam3 , Dai Zhang1
1
University of Tubingen (Germany), 2 Swiss Federal Institute of Technology (Switzerland), 3 Universite de Technologie Troyes (France)
The nonlinear optical effects in nanoantennas, such as the second harmonic generation and the two-photon
photoluminescence, are investigated. Using lithographically fabricated homo- and hetero-dimers as model
systems, we discuss the different intensity dependences of the nonlinear processes on the particle size,
material and gap distance. Furthermore, combining an ultrafast laser system with a scanning near-field optical
microscope, we demonstrate that nonlinear effects can be used to image a single plasmonic nanostructure
with an optical resolution better than thirty nm.
11:20 : Invited talk
Quantum nonlinear graphene plasmonics
Joel Douglas Cox, Javier Garcia de Abajo
ICFO - The Institute of Photonic Sciences (Spain)
Based on realistic quantum-mechanical simulations of the nonlinear optical response for doped graphene
nanostructures, we show that atomistic and nonlocal effects can increase the nonlinear response associated
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with plasmon resonances in these systems to significantly higher levels than previously thought. Motivated by
this result, we explore various aspects of the plasmon-enhanced nonlinearity in doped nanographenes, such
as saturable absorption and high-harmonic generation, and find further support for the exceptional potential
of the atomically-thin material for nonlinear nanophotonic devices.
11:40 : Shaping the nonlinear near-field: the plasmonic analogue of Young’s double slit experiment
D. Wolf, T. Schumacher, Markus Lippitz
University of Bayreuth (Germany)
Although shaping of fields around nanostructures is widely studied in plasmonics, the influence of the field
inside the nanostructures is often overlooked. The linear field distribution inside the structure taken to the
third power causes third-harmonic generation. We demonstrate how this simple fact can be used to shape
complex fields around a single particle alone. We employ this scheme to switch the emission from a single
point to two spatially separated but coherent sources.
11:55 : Ultrafast relaxation of optically excited hot electrons in plasmonic structures
Felix Spitzer1 , Boris Glavin2 , Vladimir I. Belotelov3 , Jonas Vondran1 , Ilya A. Akimov1 , Sachin Kasture4 ,
Arvind S. Vengurlekar4 , Achanta V. Gopal4 , Dmitri R. Yakovlev1 , Manfred Bayer1
1
Technische Universitat Dortmund (Germany), 2 Lashkaryov Institute of Semiconductor Physics (Ukraine),
3
Lomonosov Moscow State University (Russia), 4 Tata Institute of Fundamental Research (India)
Periodically perforated gold films are subject to femtosecond pump-probe transmission measurements which
show relaxation dynamics of optically excited electrons. The transient data show two distinct exponential
decays where the shorter decay switches sign depending if plasmonic or non-plasmonic excitation is used.
We attribute this to the qualitatively different spatial distributions of the absorbed energy in these cases.
10:40 - 12:40 — Estepona
Session 2A8
SP7. Current Advances in Electromagnetics of Metal and HRI dielectric
nanostructures
Organized by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
Chaired by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
10:40 : Invited talk
Metasurface Generation of Accelerating Light
Meredith A. Henstridge, Carl Pfeiffer, Di Wang, Alexandra Boltasseva, Vladimir Shalaev, Anthony
Grbic, Roberto Merlin
University of Michigan (USA)
We demonstrate a compact, planar-optic approach for the generation of accelerating near-IR laser pulses
by illuminating metasurfaces consisting of plasmonic nanoantennas patterned onto a glass substrate. Two
accelerating beam trajectories were generated within the glass and imaged onto a CCD, close agreement
is shown with theory. The simplicity and compactness of the proposed planar-optics approach to generating
accelerating beams opens new opportunities in the realization of accelerating beams and related devices for
advanced manipulation of light.
11:00 : Invited talk
Graphene as a tunable plasmonic metasurface with transformation optics
Paloma Arroyo Huidobro, Matthias Kraft, Stefan A. Maier, John B. Pendry
Imperial College London (United Kingdom)
We demonstrate a tunable plasmonic metasurface by considering a graphene sheet subject to a periodically
patterned doping level. By extracting the effective conductivity of the sheet we characterize metasurfaceswith
periodic conductivity modulations and demonstrate a metasurface with an isotropic response that is independent of wave polarization and orientation.
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11:20 : Invited talk
Active Semiconductor THz metasurfaces
Jaime Gomez Rivas, A. Batthacharya, G. Georgiou, A. Halpin
Dutch Institute for Fundamental Energy Research (The Netherlands)
In this contribution we demonstrate an all-optical active control of the excitation of THz resonant structures and
surface waves on flat semiconductor surfaces. This control is achieved by the photo-generation of resonant
conducting structures on the semiconductor with the illumination of an optical pump beam.
11:40 : Invited talk
Integration of metallic and dielectric nanostructures in silicon waveguides: properties and applications
Alejandro Martinez
Universitat Politecnica de Valencia (Spain)
In this work, we show recent advances related to the integration of metallic and dielectric scatterers into
dielectric waveguides created on a silicon chip at telecom wavelengths. We show that dielectric scatterers
placed in the waveguide proximity can be employed as polarization-sensitive nanoantennas. We also show
that subwavelength metallic elements can be efficiently coupled to silicon waveguides by inserting them in a
gap etched in the waveguide.
12:00 : Invited talk
Quantum plasmons on topological particle surface
Vincenzo Giannini
Imperial College London (United Kingdom)
We show that topological insulators nanoparticles sustain a new kind of excitation when interacting with
light. This is a topological localized surface plasmon polariton obtained perturbing the nanoparticle surface
electron state with light.We show that topological insulators nanoparticles sustain a new kind of excitation
when interacting with light. This is a topological localized surface plasmon polariton obtained perturbing the
nanoparticle surface electron state with light.
12:20 : Invited talk
Controlling harmonic generation in plasmonic systems
Ruben Esteban1 , Garikoitz Aguirregabiria2 , Dana-Codruta Marinica3 , Andrey K. Kazansky1 , Javier
Aizpurua1 , Andrei Borisov3
1
Donostia International Physics center DIPC (Spain), 2 Centro de Fisica de Materiales (Spain), 3 Universite
Paris Sud (France)
Plasmonic resonances can be strongly affected by quantum effects. We extend here previous work on quantum phenomena that can be observed on the linear optical response of these systems to non-linear processes. We demonstrate that polarizing metallic particles by an external static field allows modifying their
non-linear optical response at optical frequencies, as desired for active control of plasmonic resonances.
10:40 - 12:40 — Benalmadena
Session 2A9
SP6. Quantum plasmonics and metamaterials
Organized by: Humeyra Caglayan and Serkan Ates
Chaired by: Humeyra Caglayan and Serkan Ates
10:40 : Invited talk
Controlling quantum states of light with plasmonic metamaterials
Mark Tame
University of KwaZulu-Natal (South Africa)
I will present recent work on an experimental demonstration of quantum state filtering, also known as entan98
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glement distillation, using a passive metamaterial. The metamaterial can be used to distill highly entangled
states from less entangled states. I will also discuss the embedding of emitters into metamaterials in order to
enhance functionality and provide dynamic nonlinear control.
11:00 : Invited talk
Hybrid nanophotonics and light-matter interaction
Femius Koenderink
FOM Institute AMOLF (The Netherlands)
Plasmonic antennas and modest-Q dielectric cavities can be combined into hybrid nanophotonic structures
with very high Purcell factors, essentially providing plasmonic mode volumes at cavity Q’s up to 103. I discuss
the subtle underlying hybridization physics both in context of this proposal for quantum optics, and in context of
our experiments on microtoroid cavities coupled to antenna arrays that probe both cavity shifts and antenna
polarizability changes. Furthermore I present progress in scatterometry measurement methods on single
nanophotonic systems.
11:20 : Invited talk
Exploring nm-scale plasmonic cavities through light
Jeremy J. Baumberg, Anna Lombardi
Cambridge University (United Kingdom)
We deeply explore plasmonic coupling through reliable bottom-up self-assembly, namely nanoparticles deposited on a metal mirror with different spacers in bewteen, and DNA-origami-based dimers. The investigation
of these systems, extremely sensitive to the physical properties of the separation gap, give new insights into
plasmonic and quantum plasmonic properties at the nanoscale.
11:40 : Invited talk
Broadband Purcell enhancement in highly efficient photonic nanowire-based single-photon sources
Niels Gregersen1 , Dara P. S. McCutcheon1 , Jesper Mork1 , Julien Claudon2 , Jean-Michel Gerard2
1
Technical University of Denmark (Denmark), 2 CEA (France)
The photonic nanowire single-photon source design approach allows for efficient broadband coupling between a quantum dot and a 1D photonic environment. In this work, we introduce weak cavity effects to the
design by implementing a distributed Bragg reflector in the inverted taper. This leads to broadband enhancement of the photon emission rate with a Purcell factor of 6 over a full-width half-maximum range of 20 nm
while maintaining a total outcoupling efficiency of 0.8 to a Gaussian profile.
12:00 : Invited talk
Quantum metamaterials as active lasing medium: Effects of disorder
Michael Marthaler, Martin Koppenhofer, Gerd Schon
Karlsruhe Institute of Technology (Germany)
A metamaterial formed by superconducting circuits or quantum dots can serve as active lasing medium when
coupled to a cavity. In contrast to real atoms, for artifical atoms variations in their parameters cannot be
avoided. We examine the influence of disorder on such a multi-atom lasing setup. We find that the lasing
process evolves into a self-organized stationary state that is quite robust against disorder.
12:20 : Invited talk
Light Emission in Nanogap Emitting Devices: efficiency issues
R. Faggiani1 , J. Yang2 , P. Lalanne1
1
Institut d’Optique (France), 2 Stanford University (USA)
In this contribution, we clarify through analytical derivations in the limit of small gap thickness why in nanogap
antennas, quenching is not necessarily dominant at small gap thickness, why quantum emitters may offer
good efficiencies, what are the circumstances in which high efficiency is obtained, and whether there exists
an upper bound for the maximum efficiency achievable in nanogap antennas.
10:40 - 12:40 — Mijas
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Session 2A10
SP14. Nano and Mesoscopic Optics in Colloidal and Granular Systems
Organized by: Aristide Dogariu and Juan J. Saenz
Chaired by: Aristide Dogariu and Juan J. Saenz
10:40 : Invited talk
Controlling and probing weak colloidal interactions with complex laser light fields
Frank Scheffold
University of Fribourg (Switzerland)
I will discuss a several examples how we can manipulate and probe soft interactions between small, submicron colloidal spheres using optical means such as lasers, fluorescence and scattering.
11:00 : Invited talk
Optical tweezers unveil new physics: Nonadditivity of critical Casimir forces and failure of Jarzynski
equality in active baths
Giovanni Volpe
Bilkent University (Turkey)
Since their invention, optical tweezers have been employed to uncover new physics. Here, I will discuss two
recent experiments: the experimental demonstration of the failure of Jerzynski equality in active baths, and
the experimental demonstration of the existence of many-body effects in critical Casimir forces.
11:20 : Invited talk
Hybridization of Optical Forces
Onofrio M. Marago
Consiglio Nazionale delle Ricerche (Italy)
After an introduction to optical forces with a focus on the role of shape and aggregation, we present some
experiments on optical trapping of core-shell nanoparticles and plasmonic mesocapsules. Thus, we discuss
how material hybridization can promote accurate control of mechanical effects of light. In particular, we investigate models for laser cooling of hybrid plasmon-exciton systems and frequency-dependent optical forces on
oligomers (meta-molecules).
11:40 : Invited talk
The effective medium in disordered waveguides: the role of evanescent modes
Miztli Yepez1 , Juan Jose Saenz2
1
Universidad Autonoma Metropolitana-Iztapalapa (Mexico), 2 Donostia International Physics Center (Spain)
We study the wave propagation through a disordered slab inside a waveguide of finite width. In the dense
weak-scattering limit, the statistics for the complex reflection and transmission coefficients of the coherent
field depend on two characteristic lengths, leading to an effective refractive index, whose real part is quite
sensitive to the evanescent modes. The theoretical predictions, derived within the Born series method, are in
excellent agreement with numerical simulations.
12:00 : Invited talk
Light generation and scattering in a photonic network of sub-wavelength nanofibres
Riccardo Sapienza
King’s College London (United Kingdom)
One of the outstanding challenges of nanophotonic systems combining emitters with nanostructured media
is the selective channelling of photons emitted by embedded sources into specific optical modes and their
transport at distant locations in integrated systems. Here we discuss coupling experiments in plasmonic
networks and electrospun nanofibres networks.
12:20 : Invited talk
Everything is connected with everything: Can the study and tools of complex network theory tell us
something about mesoscopic physics?
Gabriel A. Cwilich
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Yeshiva University (USA)
The mathematical framework and tools of complex network theory can be used to explore a variety of phenomena of diffusion and propagation in random systems and the resilience of structures under different
percolation and decimation scenarios. Numerical and analytic results in a variety of models of single and
interdependent networks will be reviewed.
Lunch and Exhibit Inspection
12:30 - 14:00
14:00 - 15:30 — Malaga
Session 2A11
SP11. Hyperbolic metamaterials: Theory, Experiments and Applications
Organized by: Giuseppe Strangi
Chaired by: Giuseppe Strangi
14:00 : Keynote talk
Anisotropy makes the difference: systropic, bulbic, and porcupic metamaterials
Ari Sihvola, Tommi Rimpilainen, Henrik Wallen
Aalto University (Finland)
This presentation focuses on the additional dimensions in material response that particular type of anisotropies bring into the electromagnetic behavior of nanoparticles and metamaterial inclusions. The particles
under discussion are spherical or spheroidal, and the anisotropy to be treated is radial. The concepts of bulbic
and porcupic anisotropies bring forth a distinction which has interesting repercussions in the global response
of the particle. Furthermore, the generalization of radial anisotropy into systropic material response will be
discussed.
14:30 : Invited talk
Thermal Radiation from Semiconductor Hyperbolic Metamaterials
Salvatore Campione1 , Francois Marquier2 , Jean-Paul Hugonin2 , A. Robert Ellis1 , John Klem1 , Michael
Sinclair1 , Ting Luk1
1
Sandia National Laboratories (USA), 2 Universite Paris Sud (France)
We investigate the thermal radiation properties of semiconductor hyperbolic metamaterials. We show that, in
proximity of epsilon-near-zero conditions, directional and monochromatic thermal radiation is achieved. Different properties are observed for s and p polarizations, following the characteristics of the strong anisotropy of
hyperbolic metamaterials.
14:50 : Invited talk
Controlling quantum photonics with metamaterials
Mikhail Y. Shalaginov1 , Simeon Bogdanov1 , Vadim V. Vorobyov2 , Jing Liu3 , Alexei Lagutchev1 , Alexander Kildishev1 , Joseph Irudayaraj1 , Alexandra Boltasseva1 , Alexey Akimov2 , Vladimir M. Shalaev1
1
Purdue University (USA), 2 Russian Quantum Center (Russia), 3 South Dakota School of Mines and Technology (USA)
Building a robust light-matter interface is a challenging task in the field of quantum photonics. In this talk,
we present our advances in controlling the emission of nitrogen-vacancy (NV) centers in nanodiamonds. The
broadband emission enhancement was implemented by coupling NV centers to hyperbolic metamaterials
composed of novel CMOS-compatible plasmonic materials. Further, we discuss how Purcell enhancement
of the optical transition affects the optical readout of the NV spin-state. These findings could be helpful for
engineering integrated quantum registers.
15:10 : Invited talk
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Dielectric singularity in hyperbolic metamaterials: the inversion point of coexisting anisotropies
Vincenzo Caligiuri1 , Rakesh Dhama1 , Kandammathe Valiyaveedu Sreekanth2 , Giuseppe Strangi2 , Antonio De Luca1
1
University of Calabria (Italy), 2 Case Western Reserve University (USA)
We report on the realization and characterization of an extreme hyperbolic metamaterial in which coexisting
type I/type II anisotropies completely reverse at the so called canalization wavelength”, lying in the visible
range. Spectroscopic ellipsometry confirms the simultaneous type I/type II response of the obtained structure.
Confocal microscopy experiments, conducted at the canalization wavelength, confirm the supercollimation
effect and the perfect lens behaviour. Numerical simulations are found to be in very good agreement with
experiments.
14:00 - 15:40 — Ronda
Session 2A12
SP2. Acoustic, Mechanical and Thermal Metamaterials
Organized by: Mohamed Farhat and Sebastien Guenneau
Chaired by: Mohamed Farhat and Sebastien Guenneau
14:00 : Invited talk
Locally resonant acoustic metamaterials beyond homogenization: subwavelength control of waves,
slow waves, negative index and other exotic phenomena
Nadege Kaina, Fabrice Lemoult, Mathias Fink, Geoffroy Lerosey
Institut Langevin (France)
Starting from the very simple example of a soda can metamaterial (an acoustic medium made of Helmholtz
resonators), we explain the propagation of waves in locally resonant media without claiming homogenized
parameters. This allows to highlight the importance of multiple scattering even at this deep subwavelength
scale where usually the quasi-static approximation is performed. This then permits to envisage exotic phenomena such as subwavelength control of waves, slow waves or even negative refraction with a single negative
medium.
14:20 : Invited talk
Acoustic resonator systems with topological semimetal phases
Zhaoju Yang, Baile Zhang
Nanyang Technological University (Singapore)
We propose an approach of constructing acoustic topological semimetal phases in two-dimensional (2D) and
three-dimensional (3D) systems by stacking one-dimensional dimerized chains as building blocks. The 2D
acoustic system exhibits Dirac points with nonzero winding number. The 3D acoustic system exhibits Weyl
nodes with by nonzero Chern number. For stacked 3D slab structures, topologically protected chiral surface
states localize at the boundaries, which, can trace out the trajectories of Fermi Arcs, similar to previous
observations in condensed-matter Weyl semimetals.
14:40 : Keynote talk
Wave Control with space-time transformations
Mathias Fink
Institut Langevin (France)
Because time and space play a similar role in wave propagation, wave control in complex media can be
achieved or by manipulating spatial boundaries or by manipulating time boundaries. Here we first emphasize
the role of time boundaries manipulation. We show that sudden changes of the medium properties generate instant wave sources that emerge instantaneously from the entire wavefield and can be used to control
this wavefield. We will also discussed a dual approach to control a wavefield in reverberating medium by
introducing tunable metasurfaces as controllable spatial boundaries.
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15:10 : Applications of Local Resonances in Civil Engineering Seismic Protection
Bogdan Ungureanu1 , Younes Achaoui1 , Stephane Brule2 , Stefan Enoch1 , Sebastien Guenneau1
1
Aix Marseille Universite (France), 2 Dynamic Soil Laboratory (France)
A cubic array of 3D inertial resonators, numerically investigated because of its potential to block bulk waves,
gives new applications of metamaterials, using local resonances for seismic protection and seismic waves
damping. We analyze rotational and bending resonance modes with 3 different variations on ligament number
and size. Inertial resonators induce low frequency band gaps, which are relevant for seismic protection in
sedimentary basins.
15:25 : Total transmission super-resolution imaging with a hyperbolic elastic metamaterial
Hyuk Lee1 , Joo Hwan Oh1 , Hong Min Seung1 , Seung Hyun Cho2 , Yoon Young Kim1
1
Seoul National University (Korea), 2 Korea Research Institute of Standards and Science (Korea)
Here we realize total transmission subwavelength imaging with a hyperbolic metamaterial lens. The elastic
parameters (mass density and stiffness) are delicately tuned and realized with our explicit analytical method
by a mass-spring model. The essential conditions for super-resolution (by hyperbolic dispersion relation with
negative effective mass density) and total transmission (by extremely large effective stiffness) are successfully
realized. The fabricatied metamaterial lens is capable of resolving subwavelength lowest symmetric Lamb
waves.
14:00 - 16:10 — Nerja
Session 2A13
SP6. Quantum plasmonics and metamaterials
Organized by: Humeyra Caglayan and Serkan Ates
Chaired by: Humeyra Caglayan and Serkan Ates
14:00 : Invited talk
Quantum Optics with One-Dimensional Artificial Atoms
Niccolo Somaschi1 , V. Giesz1 , L. De Santis1 , G. Hornecker2 , T. Grange2 , B. Reznychenko2 , J. Demory1 ,
C. Gomez1 , I. Sagnes1 , A. Lemaitre1 , L. Lanco1 , A. Auffeves2 , P. Senellart1
1
Laboratoire de Photonique et de Nanostructures (France), 2 Universite Grenoble Alpes (France)
In a quantum network the quantum information is coherently transferred between material nodes and photonic
channels. One of the main challenges to implement such a network is to control the light-matter interaction at
the single photon level: one atom acting as stationary quantum bit should deterministically control the state of
a photon, and vice versa. This can be obtained in a so-called one-dimensional system, where a single atom
interacts only with a single and well-defined mode of the electromagnetic field.
14:20 : Invited talk
Quantum Photonics
David Zueco, Eduardo Sanchez-Burillo, Juanjo Garcia-Ripoll, Luis Martin-Moreno
Universidad de Zaragoza (Spain)
We discuss our approach for describing few photons and few scatterersat the quantum level, both analytically
and numerically. Our tools are applied to Raman, downconversion, entanglement generation and nonlinear
phases gates at the single photon level. We also discuss how to implement our ideas in circuit QED.
14:40 : Invited talk
Single solid-state quantum emitters for plasmonics
X. Wu1 , P. Jiang1 , H. Zhang2 , M. Pfeiffer2 , K. Lindfors2 , A. Rastelli3 , O. G. Schmidt3 , M. Lippitz1
1
University of Bayreuth (Germany), 2 Max Planck Institute for Solid State Research (Germany), 3 Institute for
Integrative Nanosciences (Germany)
Plasmonics promises to enable sub-wavelength photonics and quantum optics. Quantum emitters have to
be integrated to provide single photons and ultimate optical nonlinearites. We present our recent work on
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coupling GaAs quantum dots to localized and propagating plasmon modes.
15:00 : Invited talk
Quasinormal mode approach to modelling light-matter interactions in quantum-dot plasmonic resonator systems
Stephen Hughes
Queen’s University (Canada)
We present an intuitive and efficient quasinormal mode (QNMs) approach to modelling quantum light-matter
interactions in hybrid systems of quantum-dots (or artificial atoms) and plasmonic resonators. We first explore the semiclassical regime of enhanced spontaneous emission and radiative quenching for a selection
of plasmonic resonators including metal nanorods, nanorod dimers, and hyperbolic metamaterial structures.
Second, we study the quantum dynamics using a time-local master equation, and study regimes of single
photon emission, two quantum-dot entanglement and nonlinear photoluminescence.
15:20 : Keynote talk
Quantum Phenomena in Hybrid Nanostructures: Exciton-Plasmon Interactions and the Quantum Structure of the Plasmon Excitations
Alexander Govorov
Ohio University (USA)
The talk will review quantum effects predicted and observed in hybrid nanostructures composed of metal and
semiconductor components. Strong interactions between excitons, plasmons and phonons in hybrid geometries lead to the Fano interference effects, which were observed experimentally as an appearance of an optical
transparency window. In purely plasmonic structures, the quantum effects in confined geometries lead to the
peculiar structure of the wave function of a plasmon and to the generation of hot plasmonic electrons.
15:50 : Invited talk
Photonic Integrated Circuits with On-Chip Single-Photon Emitters
Peter Michler
University of Stuttgart (Germany)
In quantum photonics the full on-chip integration of major optical components, like beamsplitters, singlephoton sources and detectors are currently one of the main goals. Here, we present our progress on the
implementation of In(Ga)As quantum dots as single-photon sources in on-chip GaAs/AlGaAs waveguide
structures. Photon cross-correlation measurements between the two output arms of an on-chip beamsplitter demonstrate the generation, guiding and splitting of triggered single photons under resonant excitation in
an on-chip device.
14:00 - 15:40 — Antequera
Session 2A14
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
14:00 : Invited talk
Infrared and THz plasmonics using nano-engineered gold structures
Kosei Ueno
Hokkaido University (Japan)
Terahertz (THz) wave has received considerable attention for use in many applications such as transmission
imaging and fingerprint spectra with an important contribution in the bioengineering and security field. We
are interested in THz spectroscopy for a molecular science study because the energy of THz wave is almost
corresponding to that of intermolecular interaction such as hydrogen bonding or van der Waals force.
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14:20 : Invited talk
Spatial localization of plasmonic hot spots as probed by molecular nanomotors and atomic force microscopy
Yinping Zhang1 , Jerome Plain1 , Davy Gerard1 , Guillaume Demesy2 , Nicolas Bonod2 , Renaud Bachelot1
1
Universite de Technologie de Troyes (France), 2 Institut Fresnel (France)
Plasmonic hot spots can trigger molecular displacements. In this approach azobenzene-like molecules, covalently grafted onto a polymeric backbone, are used as optical nanomotors that act as local molecular probes
of electromagnetic phenomena. The resulting local optically-induced motion is characterized by Atomic Force
Microscopy. We used this unique method for visualizing tunable plasmonic hot spots at the gaps of plasmonic
trimers in the near infrared.
14:40 : Invited talk
Plexitonic QED: Strong coupling effect in absorption and photoluminescence spectra of hybrid systems of gold nanorods and J-aggregates
Dzmitry Melnikau1 , Ruben Esteban2 , Diana Savateeva3 , Ana Sanchez-Iglesias3 , Marek Grzelczak3 , Mikolaj Schmidt1 , Luis Liz-Marzan3 , Javier Aizpurua1 , Yury P. Rakovich1
1
CSIC (Spain), 2 DIPC (Spain), 3 CIC BiomaGUNE (Spain)
We investigated the interactions between localized plasmons in gold nanorods and excitons in J-aggregates
and were able to track an anticrossing behavior of the hybridized modes both in the extinction and in the
photoluminescence (PL) spectra of this hybrid system. We followed the evolution of the two PL peaks as
the plasmon energy was detuned from the excitonic resonance. Both extinction and PL results are in good
agreement with the theoretical predictions.
15:00 : Invited talk
Modal engineering in plasmonic crystalline colloidal systems
Upkar Kumar1 , Sviatlana Viarbitskaya1 , Aurelien Cuche1 , Alexandre Bouhelier2 , Gerard Francs2 , Jadab Sharma1 , Christian Girard1 , Erik Dujardin1
1
Universite Federale de Toulouse (France), 2 Universite de Bourgogne (France)
We report on the engineering of the spatial and spectral distributions of plasmon modes in mesoscale 2D
crystalline colloids by physical reshaping and dimer assembly. This approach allows us to match the plasmonic characteristics of the complex metallic structure to the specifications of emitters, for example, in order to
optimize the resulting in hybrid plasmonics device.
15:20 : Invited talk
High Resolution Technique for Simultaneous Proteins and Nanoparticles Patterning
Lourdes Basabe-Desmonts
University of the Basque Country (Spain)
We present a novel methodology to create micro-scaled patterns of gold nanoparticles (GNP) adjacent to
micro-scaled patterns of proteins on a planar substrate. This methodology is the combination of microfluidic
vacuum soft lithography and micro-contact printing. Such multicomponent patterns enabled controlled cell
adhesion on discrete locations surrounded by GNP. Given the inherent properties of GNP, which may act
as optical sensors and topographic cues, these high-resolution multicomponent patterns could enable new
cellular studies with high spatio-temporal resolution.
14:00 - 14:40 — Fuengirola
Session 2A15
SP8. Metasurface and its application in optical devices
Organized by: Shuang Zhang, Jensen Li and Xianzhong Chen
Chaired by: Jensen Li and Xianzhong Chen
14:00 : Invited talk
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Terahertz Metasurface-based Devices
Jingwen He, Xinke Wang, Yan Zhang
Capital Normal University (China)
Traditionalterahertz (THz) devices have relatively large size due to the long wavelengthnature of the THz radiation. Several metasurface-based THz devices, includinglens, computer generated holograms, spin selected
focusing lens, as well aswavelength selected diffractive elements, have been demonstrated. The thicknessof
these device is only 1/4000 of the working wavelength. A THz focusing planeimaging system is employed to
characterize the function devices. Experimentalresults verified the theoretical expectations.
14:20 : Invited talk
Active Photonic Devices Based on Metasurfaces Integrated with Phase-Transition Correlated Perovskites
Zhaoyi Li1 , You Zhou2 , Hao Qi3 , Qiwei Pan3 , Norman Nan Shi1 , Ming Lu4 , Aaron Stein4 , Christopher Y.
Li5 , Shriram Ramanathan2 , Nanfang Yu1
1
Columbia University (USA), 2 Harvard University (USA), 3 Drexel University (USA), 4 Brookhaven National Laboratory (USA), 5 Drexel university (USA)
We report strong and non-volatile optical modulation utilizing electron-doping induced phase change of a
perovskite, SmNiO3. Broadband modulation (l=400nm-17um) is demonstrated using thin-film SmNiO3, and
narrowband modulation is realized with metasurfaces integrated with SmNiO3.
14:40 - 16:00 — Fuengirola
Session 2A16
SP34. Fano resonances in optics and microwaves: Physics and application
Organized by: Eugene Kamenetskii
Chaired by: Eugene Kamenetskii
14:40 : Invited talk
Fano resonances, their relation to exceptional points, and applications
Holger Cartarius1 , L. Schwarz1 , G. Wunner1 , W. D. Heiss2 , J. Main1
1
University of Stuttgart (Germany), 2 University of Stellenbosch (South Africa)
We show for a model Hamiltonian that the interference of the first and second order pole of the Green’s function at an exceptional point, as well as the interference of the first order poles in the vicinity of the exceptional
point, gives rise to asymmetric scattering cross section profiles which are well described by the Beutler-Fano
formula, and thus are genuine Fano resonances. An outlook to possible applications in optics is given.
15:00 : Invited talk
Highly contrasted structural colors for industrial applications using the Fano lineshape
Benjamin Gallinet
CSEM (Switzerland)
The fabrication of plasmonic nanostructures using up-scalable and cost-efficient processes is reported. Their
optical response features the characteristic Fano lineshape, which allows them to generate strong structural
colors. Wafer-scale fabrication and process compatibility with roll-to-roll embossing are demonstrated, which
paves the road towards their industrial implementation. These plasmonic nanostructures are expected to be
used in particular for anticounterfeiting, optical security and solar light management.
15:20 : Invited talk
Modal Fano resonances and off-diagonal photonic Lamb shift in reactively coupled waveguide-resonator
systems
Mher Ghulinyan1 , M. Bernard1 , F. Ramiro Manzano2 , G. Pucker1 , L. Pavesi2 , I. Carusotto2
1
Fondazione Bruno Kessler (Italy), 2 University of Trento (Italy)
We will report on a joint theoretical and experimental study of Fano resoances, in particular, an analogue of
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the Lamb shift in an integrated photonic device. The presence of a neighboring waveguide induces a reactive
intermode coupling in the resonator, analogous to an off-diagonal Lamb shift from atomic physics. A non-linear
model for a dynamicall tuning of the Fano lineshapes is developed and demonstrated experimentally.
15:40 : Invited talk
The nanofabrication and unusual Fano resonances of 3D metamaterials
Changzhi Z. Gu, Z. Liu, A. J. Cui, W. X. Li, J. J. Li
Chinese Cademy of Sciences (China)
We developed a novel nanofabrication technology of 3D metamaterials based on focused-ion-beam irradiationinduced folding of thin film, which can similarly constructed 3D free-standing nanostructures in the research
and development of photonics. The optical characteristics of 3D plasmonic nanograters composed of freestanding Au films was studied, and the unusual and well-scalable Fano resonances at wavelengths ranging
from 1.6 to 6.4 mm were observed.
14:00 - 14:30 — Estepona
Session 2A17
SP14. Nano and Mesoscopic Optics in Colloidal and Granular Systems
Organized by: Aristide Dogariu and Juan J. Saenz
Chaired by: Aristide Dogariu and Juan J. Saenz
14:00 : Light propagation and optical response in two-dimensional silicon nanowire random fractal
arrays
Barbara Fazio1 , Pietro Artoni2 , Maria Antonia Iati1 , Cristiano D’Andrea3 , Stefano Pirotta4 , Maria Jose
Lo Faro1 , Salvatore Del Sorbo4 , Pietro Giuseppe Gucciardi1 , Rosalba Saija5 , Paolo Musumeci2 , Cirino
Salvatore Vasi1 , Diederik Sybolt Wiersma6 , Francesco Priolo2 , Matteo Galli4 , Alessia Irrera1
1
CNR - Istituto Processi Chimico Fisici (Italy), 2 Universita di Catania (Italy), 3 MATIS IMM-CNR (Italy), 4 Universita
degli Studi di Pavia (Italy), 5 Universita di Messina (Italy), 6 Universita di Firenze (Italy)
We report on the unusual optical properties of a forest of very thin silicon nanowires arranged in twodimensional random fractal geometry. We show that the extreme light scattering properties of these novel
nanostructured materials lead to strongly enhanced Raman and photoluminescence emission, which are driven by multiple light scattering phenomena and are correlated on all length scales, according to the refractive
index fluctuations.
14:15 : Light trapping and extinction in large random aggregates of particles. An investigation through
the Transition matrix method
Maria Antonia Iati1 , Rosalba Saija2 , Cristiano D’Andrea3 , Maria Jose Lo Faro1 , Pietro Giuseppe Gucciardi1 ,
Alessia Irrera1 , Barbara Fazio1
1
Consiglio Nazionale delle Ricerche (Italy), 2 Universita di Messina (Italy), 3 MATIS IMM-CNR (Italy)
We study the optical behaviour of large random, uy or densely packed, aggregates of particles using a computational approach based on the Transition matrix technique. As a case study we apply this approach to the
investigation of the outstanding optical properties, in terms of light trapping eciency and light localization
eects, of a two-dimensional random array ofthin Si nanowires arranged in a fractal geometry.
14:30 - 16:10 — Estepona
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Session 2A18
SP7. Current Advances in Electromagnetics of Metal and HRI dielectric
nanostructures
Organized by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
Chaired by: Jose A. Sanchez-Gil, Francisco Gonzalez and Fernando Moreno
14:30 : Invited talk
Modelling of phase change material based tunable meta-materials
Dmitry N. Chigrin
Aachen University (Germany)
Active tunability, switching or non-linearity of meta-material properties can be achieved by altering of the
meta-atom materials. These include among others, meta-materials based on phase-change materials, whose
properties could be altered by thermal or photo-thermal means. In this presentation, our recent results on
design and modeling of active meta-materials based on plasmonic and phononic materials and incorporating
phase-change materials as active elements will be discussed.
14:50 : Invited talk
Towards large-scale highly sensitive substrates for surface enhanced spectroscopies
Pierre Michel Adam
Universite de Technologie Troyes (France)
Nanoplasmonics concerns the excitation, manipulation and detection of the surface plasmons at the nanometric scale. It has highly potential applications for ultrasensitive biochemical sensing. Surface enhanced
spectroscopies are the ultimate sensor tools as they can reach single molecule sensitivity. We will present in
this paper our latest results towards the realization of highly controllable and reproducible nanoplasmonics
substrates.
15:10 : Hybrid optoplasmonic platforms for sensing, spectroscopy, energy transfer, and radiative cooling
Svetlana V. Boriskina1 , Jonathan K. Tong1 , Gang Chen1 , Wonmi Ahn2 , Yan Hong2 , Xin Zhao2 , Bjoern
Reinhard2
1
Massachusetts Institute of Technology (USA), 2 Boston University (USA)
I will discuss hybrid optoplasmonic architectures to tailor energy transfer between photons, plasmons, quantum emitters and heat carriers. Among the emergent properties of optoplasmonic structures is their ability
to combine spectral and spatial light localization, enabling ultrasensitive schemes for optical detection. Hybrid systems can also be designed to provide passive cooling. A combination of strong light localization and
spectral selectivity achievable under lower operating temperatures in optoplasmonic devices yields many applications in detection, spectroscopy, imaging, and radiative cooling.
15:25 : Tuning the plasmonic resonances of metallic nanoparticles for thermal applications
Juana Gabriela Calvillo Vazquez, Eugenio Mendez
CICESE (Mexico)
The resonant absorption of light in metallic nanoparticles can be used to transform them into switchable
nanosources of heat. Modications of the shape of the nanoparticle permit also the tuning of the resonance
to a specic wavelength. In this work, we study the evolution of the absorption peaks as the dimensions of a
rectangular prism nanoparticle made of gold are changed.
15:40 : Analysis of directionality effects in magnetodielectric core-shell nanoparticles by means of
polarimetric techniques
Angela Inmaculada Barreda, Yael Gutierrez Vela, Juan Marcos Sanz, Francisco Gonzalez, Fernando
Moreno
University of Cantabria (Spain)
The influence of increasing the core size of a Ag-Si core-shell nanoparticle has been investigated by using
the values of the linear polarization degree at right angle scattering configuration, PL(90). Changes in dipolar
resonances and Scattering Directionality Conditions as a function of the core radius (Rint) for a fixed shell
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size (Rext=230 nm) have been analyzed. An empirical formula to obtain the ratio Rint/Rext by monitoring the
influence of the magnetic dipolar resonance in PL(90) has been found.
15:55 : Subwavelength flat-lensing of hybrid nanowire metamaterial with low-loss, isotropic optical
negative-index behavior
Diego R. Abujetas1 , Ramon Paniagua-Dominguez2 , Manuel Nieto-Vesperinas3 , Jose Antonio SanchezGil1
1
Instituto de Estructura de la Materia (IEM-CSIC) (Spain), 2 Data Storage Institute (Singapore), 3 Instituto de
Ciencia de Materiales de Madrid (ICMM-CSIC) (Spain)
We investigate theoretically and numerically the optical properties of metamaterials based on metallo-dielectric
core-shell nanowires. Single nanowires exhibit negative electric and magnetic responses stemming from the
spectral overlap of the lowest magnetic resonance of the dielectric shell with the plasmon resonance of the
metal core. Properties extracted from photonic band structure confirm the structure behaves as a low-loss,
isotropic (2D) and bulk, optical negative index metamaterial, this is further demonstrated through numerical
simulations of flat-lense focusing.
14:00 - 15:40 — Benalmadena
Session 2A19
SP22. Microcavity Polaritons: fundamental physics and devices
Organized by: Alberto Bramati
Chaired by: Benoit Deveaud
14:00 : Invited talk
Discrete vortex solitons in polariton lattices
Natalia Berloff
Skolkovo Institute of Science and Technology (Russia)
I show that exciton-polariton condensates arranged in lattices are capable of supporting novel types of vortex
states such as spontaneous discrete vortex solitons. Such discrete vortex statesdescribe spatially localized
circular energy flows that carry a nontrivial angular momentum between the lattice sites.
14:20 : Invited talk
Manipulating and controlling polariton superfluid vortices
Simon Pigeon
Queen’s University Belfast (United Kingdom)
We report recent advances concerning the control of topological excitations in out-of-equilibrium microcavity
polariton superfluids. These excitations, which include vortices and solitons that may be created on the vicinity
of a localised potential barrier, propagate along the direction of the polariton flow but can also be optically
trapped, as has been shown. Here we present the next step in controlling these fundamental excitations,
reporting an optical method to (i) enhance their propagation, and (ii) control their interaction strengths.
14:40 : Invited talk
Spatio-temporal polariton phenomena in GaAs-based slab waveguides with giant optical nonlinearity
P. M. Walker1 , C. Whittaker1 , L. Tinkler1 , M. Sich1 , E. Cancelliery1 , D. V. Skryabin2 , A. Yulin3 , B. Royall1 ,
I. Farrer4 , D. A. Ritchie4 , M. S. Skolnick1 , Dmitry Krizhanovskii1
1
The University of Sheffield (United Kingdom), 2 University of Bath (United Kingdom), 3 ITMO University (Russia), 4 University of Cambridge (United Kingdom)
In this paper we review the physics of nonlinear polariton phenomena in GaAs-based semiconductor waveguides in the strong exction-photon coupling regime. We report the experimental observation of temporal
bright polariton solitons formed at ultra-low excitation powers confirming giant optical nonlinearity of polariton
system. Spatio-temporal modulational instability and dark-bright solitons are also investigated.
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15:00 : Invited talk
Dynamic Control of Polariton States in Spin-Orbit Poincare Spheres using Ultrafast Stark Pulses
Emiliano Cancellieri, F. Li, G. Buonaiuto, D. N. Krizhanovskii, M. S. Skolnick, D. M. Whittaker
University of Sheffield (United Kingdom)
In this work we demonstrate the complete dynamical control of polariton spin-vortex states, with orbital angular
momentum equal to plus or minus one, on a Poincare sphere and among different ones. More specifically, we
use red-detuned ultrafast Stark pulses to modulate, in time, the energy of the excitonic resonances. This, due
to the double light-matter nature of cavity polaritons, allows controlling the phase and the state of polarization
of the polariton field.
15:20 : Invited talk
Ultra-strong coupling with the free space: the superradiance
Carlo Sirtori, A. Vasanelli, Y. Todorov
University Paris Diderot (France)
We report on a phenomenon of non-perturbative spontaneous emission taking place in the absence of optical
confinement, when a collective electronic excitation superradiantly decays into free space radiation.
14:00 - 16:10 — Mijas
Session 2A20
SP31. Plasmonic Nanocircuits: Fundamentals and Devices
Organized by: Hong Wei
Chaired by: Hong Wei and P. James Schuck
14:00 : Invited talk
Plasmonic metasurfaces for polarization and phase sensing
Evgeniy Panchenko, Jasper Cadusch, Panji Achmari, Kalpana Singh, Timothy James, Daniel Gomez,
Timothy Davis, Ann Roberts
The University of Melbourne (Australia)
Metasurfaces are artificially fabricated, ultrathin films that exhibit a tailored response to incident electromagnetic radiation. Here theoretical, computational and experimental progress toward the design and demonstration of phase and polarization-sensitive metasurfaces for applications in optical image processing will be
presented.
14:20 : Invited talk
Surface plasmon enabled fast LED, compact waveguide device and OAM demultiplexor
Jinghua Teng
A*STAR (Singapore)
This talk will introduce several photonic devices enabled by plasmonic structures including surface plasmon
coupled high speed light emitting diodes, compact waveguide devices using graphene and semiconductor,
and the demultiplexing of optical angular momentum in optical vortices.
14:40 : Invited talk
Control of Gap Plasmon Resonance in a Suspended Nanowire By Electrostatic Force
Junichi Takahara, Akira Kaijima, Yusuke Nagasaki, Masashi Miyata
Osaka University (Japan)
We demonstrate a reconfigurable plasmonic resonator based on a metal nanowire (NW) suspended on a
metal substrate. The suspended gold NW can be pull down by electrostatic force induced by applying voltage
to the NW. Such electromechanical response dramatically changes the plasmonic resonance between the NW
and the substrate. We observe the change of scattering spectra, which is attributed to Fabry-Perot interference
of surface plasmon inside the gap.
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15:00 : Invited talk
CMOS copper plasmonic nanocircuitry
Dmitry Yu. Fedyanin, Dmitry I. Yakubovsky, Roman V. Kirtaev, Valentyn S Volkov
Laboratory of Nanooptics and Plasmonics (Russia)
Plasmonics is widely considered to be the most promising candidate for the next generation of chip-scale
technology. However, at telecommunication wavelengths, characteristics acceptable for practical implementation have been demonstrated only with noble metals, which are not compatible with industry-standard fabrication processes. In this work, we present ultralow-loss deep-subwavelength copper plasmonic waveguides
fabricated in a CMOS compatible process, which can outperform gold waveguides. These results create the
backbone for practical implementation of plasmonic nanocircuits in silicon photonics and silicon microelectronics.
15:20 : Invited talk
Plasmonic vector near-field for composite interference, SPP switches and optical simulators
Tao Li, Yulin Wang, Qingqing Cheng, Shining Zhu
Nanjing University (China)
Plasmonics offers people not only the strong field confinement and field enhancement within nanostructures,
but also a versatile configuration of the vector near-field. Here, we would like to show several interesting optical
phenomena arising from the vector field coupling effect. One is the composite interference of surface plasmon
polaritons (SPPs) within two crossed strip waveguides, and the other is optical simulations for massless Dirac
Fermion and topological interface states.
15:40 : VO2-driven switchable-beam directional antenna for micro/nano scale optical communications
Eesa Rahimi
Sabanci University (Turkey)
In this study, we propose a switchable-beam directional antenna for micro/nano scale intrachip optical communications. Vanadium dioxide phase transition controls antenna’s beam by affecting director’s resonance
frequency in a Yagi-Uda array and transforming them to reflector elements. A considerable gain manipulation
is achievable by this method depending on array size.
15:55 : Interaction of quantum dots and plasmonic nanoparticle dimers
Marija Gasparic, Andreas Hohenau, Ulrich Hohenester, Joachim R. Krenn
University of Graz (Austria)
The coupling of single photon emitters like quantum dots (QDs) and metal nanoparticles (MNPs) give us
the possibility to investigate light matter interaction. Our study is focused on developing a plasmon enhanced
photo detector using a (single) QD and MNPs. Resonant MNPs generate an enhanced near field that strongly
influences the absorption rate of the QDs placed in the MNPs’ vicinity.
14:00 - 15:45 — Sierra Nevada
Session 2A21
GEN5. Materials for photonics
Chaired by: Elena Bailo
14:00 : Characterisation and Dynamic Control of Graphene-Liquid Crystal Composite Microfluidic Systems
Benjamin Thomas Hogan1 , Salma Younesy2 , Lorcan Brennan3 , Tatiana Perova3 , Yuri Gun’ko3 , Sergey
Dyakov4 , Monica Craciun1 , Anna Baldycheva1
1
University of Exeter (United Kingdom), 2 Ecole Nationale Superieure de Mecanique et des Microtechniques
(France), 3 The University of Dublin (Ireland), 4 Skolkovo Institute of Science and Technology (Russia)
Fabry-Perot micro-resonator design of microfluidic structures on silicon-on-insulator chips has been used
to enhance the Raman signal from synthesised composites of graphene oxide nanoparticles dispersed in
nematic liquid crystal fluid host. Enhancement has been quantified through simulations of the structures and
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then verified experimentally. Polarised microscopy has been utilised to show the dynamic reconfiguration of
the nanocomposites under the influence of an applied electric field.
14:15 : Electro-modulation spectroscopy of electronic band structure for MoS2, MoSe2, WS2, and
WSe2 crystals and single layers
Robert Kudrawiec1 , J. Kopaczek1 , M. Welna1 , M. Baranowski1 , M. Polak1 , P. Scharoch1 , K. Wu2 , B.
Chen2 , S. Tongay2
1
Wroclaw University of Technology (Poland), 2 Arizona State University (USA)
Electro-modulated reflectance (contactless electroreflectance (CER) and photoreflectance (PR)) has been
applied to study direct optical transitions in MoS2, MoSe2, WS2, and WSe2 crystals and single layers. For
bulk crystals spectral features related to optical transitions at K and H point of Brillouin zone have been clearly
observed in CER and PR spectra. Due to reduction of crystal size to a few layers spectral features related to
optical transitions at H point disappear that is very consistent with theoretical predictions.
14:30 : Correlative Microscopy for 2D Material Characterization
Ute Schmidt1 , Elena Bailo2 , David Steinmetz1 , Thomas Dieing1
1
WITec GmbH (Germany), 2 WITec GmbH (Spain)
Raman imaging is a non-destructive and highly sensitive technique for the differentiation of layers, stacking,
chirality, and defects in graphene and transition metal dichalogenides (TMDs). The information obtained from
Raman imaging can be complemented by other techniques such as Photoluminescence (PL), Atomic Force
Microscopy (AFM), Scanning Near-field Optical Microscopy (SNOM) or Scanning Electron Microscopy (SEM).
In this contribution various examples of correlative studies will be presented, all having been acquired using
a single correlative microscopy platform.
14:45 : Plasmon Characteristics of Chemically-Doped Graphene Revealed by Near-Field Optical Nanoscopy
Zebo Zheng, Huanjun Chen
Sun Yat-sen University (China)
In this study, we cultivated the near-field optical properties of chemically-doped graphene with improved surface plasmon characteristics. By using a scattering-type scanning near-field optical microscope (s-SNOM), we
showed that the plasmons of the graphene can be improved by chemical doping. Furthermore, the plasmonrelated characteristics, including the plasmon wavelengths and damping rates, can be obtained from the
near-field plasmonic fringes observed in the graphene. The experimental findings were further corroborated
by theoretical results from density functional theory (DFT).
15:00 : Single-particle plasmonic structures reveal extrinsic chirality
Vladimir E. Bochenkov1 , D. S. Sutherland2
1
Lomonosov Moscow State University (Russia), 2 Aarhus University (Denmark)
The concept of extrinsic chirality, i.e. optical activity of nonchiral media exhibited at oblique illumination, is
generalized to include single-particle plasmonic nanostructures. We observe circular dichroism in irregular
arrays of two different types of metallic nanostructures, non-concentric rings and asymmetrically stacked
disks, in the visible and near-infrared regions. By using computer simulations, we show that extrinsic chirality in these systems is, importantly, due to individual nonchiral particles. We propose a mechanism for the
chiroptical response of single-particle plasmonic structures.
15:15 : Design of Planar Chiral Metamaterials for Near Infrared Regime
Sabri Kaya, Mustafa Turkmen, Omer Topaktas
Erciyes University (Turkey)
Planar chiral metamaterials comprising double-layer dielectric-metal-dielectric resonant structures in the shape of a windmill are presented for near-infrared regime. The circular dichroism is retrieved from transmission
spectra. The dependence of spectral characteristics on the geometrical parameters of the planar chiral metamaterials is analyzed by the finite-difference time-domain method. Due to the enhanced chiroptical near-field
response and tunable spectral behavior, proposed PCM arrays may have potential for biosensing applications
of chiral biomolecules.
15:30 : Second Harmonic Generation from Sub-Wavelength Triangular Hole Array in Au Thin Film
Mizuki Saikawa, Yuta Hachiya, Kengo Iwata, Masakazu Matsubara, Teruya Ishihara
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Tohoku University (Japan)
Transmitted second harmonic generation (SHG) is investigated for isosceles triangular hole array in 25 nmthick Au film on a quartz substrate. Even at normal incidence, due to lack of inversion symmetry in one
direction for the triangular shape, SHG generated at the surface of the hole wall is not cancelled and thus
observed. Numerical calculation based on the effective susceptibility formalism is compared to the experimentally observed resonance in SHG excitation spectra.
Coffee Break and Exhibit Inspection
Session 2P2
Poster session IV
16:00 - 16:40
P1: Graphene three-port circulator
Victor Dmitriev, Wagner Castro, Clerisson Nascimento
Federal University of Para (Brazil)
A new type of the graphene-based three-port circulator is suggested and analysed. The cross-section of the
component presents a three-layer structure consisting of silicon, silica and graphene. In-plane figure looks
like a common microwave microstrip circulator with a circular graphene resonator with three waveguides
symmetrically connected to it. The graphene is magnetized normally to its plane by a DC magnetic field.
Numerical simulation at 22.8THz region demonstrates isolation of -15dB and insertion losses of -1dB in
10percent frequency band.
P2: Resonance Raman scattering studies of tungsten diselenide (WSe2)
Hankyoul Moon, Ja-Yeong Kim, Seokhyun Yoon
Ewha Womans University (Korea)
Large amount of research has been conducted over transition metal dichalcogenide since production of
single- and multi-layerd graphene. These materials exhibit interesting 2-dimensional physics and can be utilized for electronic and optoelectronic devices. For measuring basic characteristic such as lattice properties
and information regarding the electronic band structure of the samples, we performed Raman scattering
spectroscopy by using five different excitation energies of 457.9nm, 488nm, 514.5nm, 532nm, and 632.8nm
and also measured temparature dependence of WSe2.
P3: Raman scattering studies of tungsten disulfide (WS2)
Jayeong Kim, Hankyoul Moon, Seokhyun Yoon
Ewha womans university (Korea)
The energence of new facile fabrication techniques of producing the single-and the multi- layered graphene
has led to large amount of research over other two-dimensional materials. In this study, we made WS2
samples by exfoliation method. We performed Raman spectroscopy using four different excitation energies in
different temperatures to study basic characteristics. We report the low energy modes and anomalous phonon
behavior that depends on the number of layers, temperatures, and resonant effect reflecting the underlying
electronic band structure.
P4: Linear enhancement of the Kerr nonlinear index in the epsilon-near-zero regime
Lucia Caspani1 , Rishad Kaipurath1 , Matteo Clerici2 , Marcello Ferrera1 , Thomas Roger1 , Andrea Di
Falco3 , Jongbum Kim4 , Nathaniel Kinsey4 , Vladimir Shalaev4 , Alexandra Boltasseva4 , Daniele Faccio1
1
Heriot-Watt University (United Kingdom), 2 University of Glasgow (United Kingdom), 3 University of St. Andrews (United Kingdom), 4 Purdue University (USA)
We study the potential for enhanced nonlinear refractive index (n2) that exploits the low complex permittivity
attained in the epsilon-near-zero (ENZ) regime. Our approach does not resort to optical resonances nor to
the enhancement of the longitudinal field component. Experiments performed on Al-doped ZnO (AZO) thin
films show a six-fold increase of the nonlinear refractive index at the ENZ wavelength (=1300 nm). This
enhancement, combined with the low losses in the film, may enable studies of non-perturbative nonlinear
effects.
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P5: Improvement of Metal-Based THz Patch Antenna Parameters Using Monolayer Graphene
Mohammed Taih Gatte, Ping Jack Soh, R. B. Ahmad, Mohd Faizal Jamlos
Universiti Malaysia Perlis (Malaysia)
Terahertz antennas are highly suited to fulfill the demands of next generation wireless communication, detection, sensing, spectroscopy and imaging devices. The design and implementation of antennas in this frequency band, however, is challenging. To design an efficient THz antenna, a suitable solution is by using
nanomaterials. In this paper, monolayer graphene is used to coat the metallic surface of a THz patch antennas. It showed a 10percent improvement for, gain, radiated power and radiation efficiency, besides featuring
lower loss.
P6: Numerical simulations of nonlinear optical properties of carbon quantum dots embedded in a
polymeric matrix
Cristian Kusko, Roxana Tomescu, Mihai Kusko
National Institute for Research and Development in Microtechnologies (Romania)
We calculate using the finite difference time domain (FDTD) method the third ordernonlinear response of a
nanocomposite consisting in carbon quantum dots (CQD) embedded in apolymeric matrix. We show that due
to the intrinsic high Kerr susceptibility presented by CQD, thecomposit exhibits significant nonlinear optical
properties suggesting promising applications ofthese materials in photonics. We numerically investigate the
optical response of the nanocompositeas a function of CQD’s shape, size, and concentration.
P7: Simultaneous Contribution of Ultrafast Interband and Intraband Dynamics in Al:ZnO
Clayton DeVault1 , Nathniel Kinsey1 , Matteo Clerici2 , Jongbum Kim1 , Enrico Carnemolla3 , Amr Shaltout1 ,
Daniele Faccio3 , Vladimir Shalaev1 , Marcello Ferrera3 , Alexandra Boltasseva1
1
Purdue University (USA), 2 University of Glasgow (United Kingdom), 3 Heriot-Watt University (United Kingdom)
By engineering the semiconductor-to-metal crossover wavelength of our uniquely grown aluminum-doped
zinc oxide (AZO), we demonstrate simultaneous interband and intraband sup-picosecond recombination times in AZO thin films. The two nonlinear responses, driven by optical pulses at a different wavelength, are
independent and can be effectively combined to tailor the ultrafast response of optical telecommunication
signals, enabling a novel ability to dynamically control nanophotonic devices.
P8: Non-Volatile Optoelectronic Phase-Change Meta-Displays
Santiago Garcia-Cuevas Carrillo1 , Christopher David Wright1 , Peiman Hosseini2 , Harish Bhaskaran3
1
University of Exeter (United Kingdom), 2 Bodle Technologies (United Kingdom), 3 University of Oxford (United
Kingdom)
Phase-change materials have a pronounced contrast between their electrical and optical properties when in
the amorphous to crystalline phases, and can be switched between these phases quickly and repeatedly by
electrical or optical means. These characteristics have very recently been exploited to produce a novel form of
non-volatile optoelectronic display technology. In this paper we combine such phase-change display devices
with metamaterial arrays, so as to gain additional control over their spectral properties.
P9: Photoconductivity of few layer MoTe2
Toby Octon, Karthik Nagareddy, Monica Craciun, David Wright
University of Exeter (United Kingdom)
A photoconductivity study of few-layer MoTe2 in a field effect transistor (FET) configuration was performed
to find the photoresponsivity and photocurrent response of the material. The mechanisms for MoTe2 with
no applied gate voltage were found to be dominated by the photovoltaic effect, showing its potential for use
in solar cells. Due to the band gap of MoTe2 being 1.1 eV, MoTe2 is a suitable photodetector for optical
wavelengths and potentially the near infrared.
P10: Graphene-Based Multi-Resonant Metamaterial Absorber in the Terahertz Regime
Reza Parvaz, Hamidreza Karami
Bu-Ali Sina University (Iran)
In this paper we present a multi-resonant Graphene-based perfect absorber in terahertz frequency range.
This metal-backed metamaterial absorber consists of a metallic ring resonator positioned on a Graphene
micro-ribbon. Afterward we obtain the resonant RLC circuit and investigate the transmission line model. This
proposed structure can be highly adapted to suit special requirements that one can manipulate the parame114
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ters to approach single wideband or multi narrowband resonance.
P11: Sensitivity of Graphene-Nonlinear Waveguide Sensors
Hala Jarallah El-Khozondar, Mohammed M. Shabat, Rana Khalefa
Islamic University of Gaza (Palestine)
Sensors are counted by their abilities to measure small changes in the measured quantities. Further, their
size and weight are other important factors to consider while designing a sensor. In this work, we proposed a sensor consists of three layers: Dielectric film sandwiched between thin graphene layer topped with
air and nonlinear substrate. The dispersion relation for the structure is derived for TE guided modes. The
homogenous sensing is calculated using maple 17.
P12: Investigations in band structures and electronic transport of GaAs/AlAs nanostructures superlattices for near infrared detection
Driss Barkissy, Abdelhakim Nafidi, Abderrazak Boutramine, Keltoum Khallouq, Mohammed Bellioua,
Abdelkrim Hannour
University Ibn Zohr (Morocco)
We investigate here the band structures and electronic transport properties along the growth axis and in
the plane of GaAs(d1=2.52 nm)/AlAs(d2=1.16 nm) superlattice based on the envelope function formalism.
The effect of the well thickness, the ratio d2/d1 and the temperature on the band structures, have been also
studied. This sample has a direct band gap of 1.747 eV at 300K. The corresponding cut-off wavelength
indicates that it can be used as near infrared detector.
P13: Terahertz Electron-Beam Radiation in Graphene
Khwanchai Tantiwanichapan, Xuanye Wang, Anna Swan, Roberto Paiella
Boston University (USA)
Terahertz light emission based on electron-beam radiation mechanisms in graphene is investigated numerically. Specifically, we consider cyclotron-like emission in sinusoidally corrugated graphene, and the SmithPurcell effect in a planar graphene sheet on a nanoscale dielectric hole array. Technologically significant
power levels at geometrically tunable THz frequencies are computed for both device configurations even at
room temperature.
P14: A subcell technique for numerical analysis of optical properties of graphene metamaterials with
the finite-difference time-domain method
Ilya Valuev1 , Sergei Belousov1 , Maria Bogdanova1 , Oleg Kotov2 , Yuri Lozovik2
1
Kintech Lab Ltd. (Russia), 2 Institute of Spectroscopy of the Russian Academy of Sciences (Russia)
A subcell technique for calculation of optical properties of graphene metamaterials with the finite-difference
time-domain method is presented. The technique is applied for analysis of transmission, reflection and absorbtion spectra of various graphene metamaterials, and the results are compared to other theoretical approaches as well as experimental data. The method demonstrates a significantly better numerical efficiency
and accuracy than a common approach, where graphene is represented by a thin film.
P15: Resonant Visible Light Modulation with Graphene
Renwen Yu, Valerio Pruneri, Javier Garcia de Abajo
ICFO (Spain)
No fundamental limit appears to prevent us from designing wavelength-sized devices capable of controlling
the light phase and intensity at terahertz speeds in those spectral ranges. Here we have proposed a solution based upon graphene for fast modulation and switching of light at visible and near-infrared (vis-NIR)
frequencies which is of utmost importance for optical signal processing and sensing technologies.
P16: The Electromagnetic Chirality of an Object
Ivan Fernandez-Corbaton, Carsten Rockstuhl
Karlsruhe Institute of Technology (Germany)
We introduce a definition of the electromagnetic chirality of an object. The definition allows the absolute
ranking of objects according to their chirality and has an upper bound. The common definition of chirality
lacks both these features. We study the physical properties of the objects that achieve the upper bound and
show that they have promising applications. We discuss two of them: A twofold resonantly enhanced and
background free circular dichroism measurement setup and angle independent helicity filtering glasses.
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P17: Concentration and redirection of light in in metal nanoparticle/polymer nanocomposites waveguides
Mattia Signoretto1 , I. Suarez1 , R. Abargues2 , P. Rodriguez-Canto2 , V. Chirvony1 , J. Martinez-Pastor1
1
University of Valencia (Spain), 2 Intenanomat S.L (Spain)
A nanocomposite made by in situ synthesis of metal nanoparticles (MNP) in the commercially available photoresist novolak (Nv) is proposed as a novel material for integrated optics. Size of MNP is controlled during
the fabrication in order to provide a method to tune the absorption/scattering properties of the resulting nanocomposite and its effective refractive index. Practical applications of this nanocomposite are demonstrated.
P18: Bandwidth Enhancement of Array Antenna using Double Positive Material of Artificial Magnetic
Conductor
H. Lago, M. F. Jamlos, P. J. Soh
Universiti Malaysia Perlis (Malaysia)
Integration of array antenna into a metamaterial of single resonant Artificial Magnetic Conductor (AMC) at
9.41 GHz is proposed. AMC plane stacked array slotted elements have successfully increased the bandwidth and efficiency of antenna to 20.59percent and 96.31percent respectively compared to 4.61percent and
95.91percent without AMC. It is observed that the positive permittivity and high permeability of 9 x 12 AMC
rectangular circular-slotted unit cell significantly contributed to such results.
P19: Bandwidth Enhancement of Array Antenna using Double Positive Material of Artificial Magnetic
Conductor
H. Lago, M. F. Jamlos, P. J. Soh
Universiti Malaysia Perlis (Malaysia)
Integration of array antenna into a metamaterial of single resonant Artificial Magnetic Conductor (AMC) at
9.41 GHz is proposed. AMC plane stacked array slotted elements have successfully increased the bandwidth and efficiency of antenna to 20.59percent and 96.31percent respectively compared to 4.61percent and
95.91percent without AMC. It is observed that the positive permittivity and high permeability of 9 x 12 AMC
rectangular circular-slotted unit cell significantly contributed to such results.
P20: Controllable Large Circular Dichroism of a Chiral Metasurface Induced by Coupling Localized
and Propagating Modes
Zeng Wang1 , Yue Wang1 , Giorgio Adamo1 , Bing Hong Teh1 , Qing Yang Steve Wu2 , Jinghua Teng2 ,
Handong Sun1
1
Nanyang Technological University (Singapore), 2 A*STAR (Singapore)
Herein, we introduce a novel chiral metasurface composed of a chiral arrangement of nanoslits carved in
a continuous metal film, in which propagating surface plasmon modes are proved to be powerful tools to
control the metasurface’s chiral response. Numerical simulations help us devise a straightforward approach
to the measurface’s design and through which, by modifying the coupling between localized and propagating
modes, we experimentally achieved controllable and remarkably strong chiral responses.
P21: Nitride nanophotonics from the deep ultra-violet to the near infrared: non-linear optics and microlasers
Julien Selles1 , Christelle Brimont1 , Brahim Guizal1 , Bruno Gayral2 , Meletios Mexis3 , Fabrice Semond3 ,
Iannis Roland4 , Yijia Zeng4 , Xavier Checoury4 , Philippe Boucaud4 , Thierry Guillet5
1
Universite de Montpellier France (France), 2 Universite de Grenoble Alpes (France), 3 CRHEA - CNRS (France), 4 Universite Paris Sud (France), 5 Universite de Montpellier (France)
The recent developments of nitride nanophotonics, based on photonic crystal membrane nanocavities and
microdisk resonators, pave the way to a novel nanophotonic platform. Here we present two recent achievements: first we demonstrate the room-temperature operation of a nitride microlaser emitting in the deep UV
spectral range (l=275 nm) with GaN/AlN multiple quantum wells. Secondly we tailor the second-harmonic
generation of a cw near infra-red radiation coupled to a high quality factor photonic crystal cavity.
P22: Out-of-plane photonic band structures of two-dimensional photonic crystals: a study of the complete band gap
Jesus D. Valenzuela-Sau, Raul Garcia-Llamas
Universidad de Sonora (Mexico)
The out-of-plane photonic band structures (PBSs) of two-dimensional photonic crystals (PCs) are calculated.
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We focus the calculation of this study on the behavior of the complete forbidden band gaps. The PC is a
rectangular (triangular) array of infinitely long vacuum rods of elliptical (circular) cross section surrounded by
a high dielectric medium.
P23: Optical correlations in 2D and 3D photonic crystals with weak and strong disorder
Femi Ojambati, E. Yeganegi, Allard P. Mosk, Willem L. Vos
University of Twente (The Netherlands)
We investigate experimentally the effect of disorder in real photonic crystals. We studied three-dimensional
(3D) silica opals, and two-dimensional (2D) silicon photonic crystals. The statistics of reflected light intensities
strongly differs from the Rayleigh distribution typical of a completely disordered medium, indicative of intensity correlations. To investigate such correlations, we probe the spatial-dependent correlation function of the
reflected intensity. We find that the reflected light from regions with low disorder correlates more than regions
with higher disorder.
P24: Active control of the vacuum field in nanomechanical photonic crystal structures
Michele Cotrufo, L. Midolo, M. Petruzzella, Z. Zobenica, F. W. M. van Otten, A. Fiore
Eindhoven University of Technology (The Netherlands)
We theoretically and experimentally investigate a nano-opto-electro-mechanical system which allows controlling the spatial distribution of the vacuum electromagnetic field. The system is based on a double-membrane
photonic crystal waveguide. The bending of the top membrane, induced by an applied voltage, creates a
spatial profile of the effective refractive index, which affects the localization of the electromagnetic modes.
Large modulations of the optical quality factor are predicted by both theory and numerical calculations, and
confirmed by experimental data.
P25: High-Emissivity Thermal Emitters on Patterned Dielectric Substrates for Thermophotovoltaics
Da-Som Kim, Jin-Young Na, Yoon-Jong moon, Young-Seok Kim, Sun-Kyung Kim
Kyung Hee University (Korea)
We studied an optimal design of highly efficient thermal emitters fabricated on patterned dielectric substrates
by conducting full-vectorial electromagnetic simulation. The simulation results revealed that two-dimensional
(2D) photonic crystals that are composed of dielectric patterns covered with a metal (Ta and W) layer enhance
the emissivity over a broad spectral range. This feature illustrates that each object in the 2D photonic crystals
acts as an optical cavity, thus improving the light-matter interactions at every resonant frequency.
P26: Fully optically built tunable photonic crystal
Oto Brzobohaty, L. Chvatal, P. Zemanek
Institute of Scientific Instruments of the CAS (Czech Republic)
We demonstrate experimentally that a tunable photonic colloidal crystal can bebuilt fully optically. Polystyrene
spheres, when illuminated by two counter- propagating laser beams, self-arranged due to the optical binding
forces into chain-like structure. Our experiments, based on confocal microscopy, show tunability of optical
response to unfocused supercontinuum laser. The spectrum of the scattered field varied along the photonic
crystal showing localization of the field on the front part of the chain.
P27: Wave transmission and photonic frequency bands in graphene superlattices with sequentially
modulated doping
Ivan Fuentecilla-Carcamo1 , Martha Alicia Palomino-Ovando1 , Felipe Ramos-Mendieta2
1
Benemerita Universidad Autonoma de Puebla (Mexico), 2 Universidad de Sonora (Mexico)
The propagation of light in periodic layered media constituted of equidistant and equally doped graphene
sheets is described by band theory. We report that additional structure on the photonic bands is produced
when the graphene doping is sequentially modulated along the superlattice axis. Transmission and reflection
spectra of multilayer arrays with different doping modulation are presented.
P28: Influence of microscale and nanoscale size effects on optoelectronic properties of metallic patterned structures
Mikita Marus1 , Aliaksandr Hubarevich1 , Aliaksandr Smirnov2 , Xiao Wei Sun1 , Huang Hui3 , Weijun Fan1
1
Nanyang Technological University (Singapore), 2 Belarusian State University of Informatics and Radioelectronics (Belarus), 3 Singapore Institute of Manufacturing Technology (Singapore)
The impact of micro- and nanopores on the optoelectronic performance of aluminium and silver layers with
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hexagonal pore arrangement is demonstrated. Results show that the difference of optoelectronic properties
between the aluminium and silver MP layers is negligible (less than 5 percent), while the NP silver layers
demonstrate significantly higher transmittance (up to 20 percent) at the given sheet resistance. The results
allow to select the most appropriate patterned layer for each specific optoelectronic applications.
P29: Coupling between Guided Spoof Surface Plasmon Polaritons
Seong-Han Kim1 , Kap-Joong Kim2 , Chul-Sik Kee1
1
Integrated Optics Laboratory (Korea), 2 Electronics and Telecommunications Research Institute (Korea)
We investigate coupling behaviours between guided spoof surface plasmon polaritons in a form of line defect
modes. We theoretically derive and numerically evaluate the coupling length, which indicate coupling strength,
from dispersion relations of eigenmodes in coupled waveguides.
P30: Dielectric metamaterial fabricated from silicon pyramid grating as an effective optical sensor
Andrey K. Sarychev1 , Konstantin Afanasev1 , Irina Boginskaya1 , Igor Budashov2 , Ilya Kurochkin2 , Ilya
Ryzhikov1 , Andrey Ivanov1 , Marina Sedova1 , Andrey Lagarkov1
1
Institute for Theoretical and Applied Electrodynamics RAS (Russia), 2 Lomonosov Moscow State University
(Russia)
Dielectric metamaterial composed of periodic silicon pyramid grating is investi- gated. We use the results of
the numerical simulations as well as real experiment to demonstrate giant field fluctuations in the dielectric
substrate due to the excitation of the dielectric reso- nances. We demonstrate the enhancement of the Raman
signal from the complex of 5,5-dithio- bis-[2-nitrobenzoic acid] molecules and gold nanoparticles (TNB-AuNP), which are immobilized on the surface of the silicon pyramid grating.
P31: Temperature tunable waveguide modes in a semiconductor quaternary alloy hexagonal photoniccrystal hole slab
Robert Sanchez Cano1 , Nelson Porras Montenegro2
1
Universidad Autonoma de Occidente (Colombia), 2 Universidad del Valle (Colombia)
We present theoretical predictions for the photonic even line defect modes, and spatial distribution of the
electromagnetic field intensity as a function of the temperature. The photonic crystal hole slab is composed
of a 2D-hexagonal array, embedded in a non-dispersive semiconductor alloy. Our results show a strong temperature dependence of the waveguide modes, the electromagnetic field distribution, and critical temperature
values for the existence of guided modes to defect radius values near the edges of the photonic band gap.
P32: Wave Propagation and Acoustic Band Gaps of Liquid Crystal/Solid Systems
Oral Oltulu1 , A. M. Mamedov2 , E. Ozbay2
1
Harran University (Turkey), 2 Bilkent University (Turkey)
In this study,we present a calculated band structure results for a two dimensional (2D) square array geometry
of solid cylindrical scatterers surrounded by a liquid crystal (LC) matrix. The compound used in this study
was a room temperature (NLC) , called 5CB (4-pentyl-4’cyanobiphenyl). The acoustic band structure of a
two-dimensional phononic crystal containing a 5CB NLC and Lithium Tantalate (LiTaO3) was investigated by
the plane-wave-expansion (PWE) method.
P33: Effect of Material Parameters on Band Gap of Sonic Crystals (BaTiO3/Polar Liquids)
Amirullah Mamedov1 , Oral Oltulu2 , Ekmel Ozbay1
1
Bilkent University (Turkey), 2 Harran University (Turkey)
In this paper, we study the influences of material parameters on the phononic band gaps of two-dimensional
(2D) solid phononic crystals (PCs) based on the Plain Wave Expansion (PWE) method. We found that the
pass bands and forbidden bands of the PCs can be changed by rotating the anisotropic material orientation
of the scatterers. It is noted that most of the above-mentioned studies are based on the calculations of the
PCs with some particular material combinations.
P34: Simultaneous Full Control of Elastic Waves in Plates by Gradient Index Devices
Yabin Jin1 , Daniel Torrent2 , Yan Pennec1 , Yongdong Pan3 , Bahram Djafari-Rouhani1
1
Universite de Lille 1 (France), 2 Universite de Bordeaux (France), 3 Tongji University (China)
We present a method for designing gradient index devices for elastic waves in plates based on Fourier homogenization of phononic crystals/acoustic metamaterials. The method allows the design to control the three
fundamental Lamb modes, despite the fact that their dispersion relation is managed by different elastic cons118
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tants. It is shown that by means of complex GRIN phononic crystals and thickness variations, it is possible to
independently design the three refractive indexes of Lamb modes, hence realizing their simultaneous control.
P35: Reconfigurable Acoustic Metasurface for Dynamic Steering of Sound Waves
Po-Han Fu, Tsung-Yu Chiang, Ding-Wei Huang
National Taiwan University (Taiwan)
A reconfigurable acoustic metasurface was designed and constructed for manipulatingthe propagation of
sound waves. The acoustic metasurface consists of an arrayof 3D-printed cells containing motor-driven interdigitated walls. By changingthe positions of the interdigitated walls in each cell, the acousticmetasurface can
change the phase distribution of the sound waves passingthrough it. In this way, dynamic steering of sound
waves can be achieved.
P36: Hybridization of multi-mode waves in thin plates
Matthieu Rupin1 , P. Roux2 , G. Lerosey1 , F. Lemoult1
1
Institut Langevin (France), 2 Universite Grenoble Alpes (France)
This work concerns the study of the effect of multiple localized resonances on multiple propagative modes.
We demonstrate the possibility to break the natural orthogonality of elastic plate waves (A0 and S0 Lamb
modes) using an assymetric metamaterial composed by an ensemble of long metallic rods closely packed
and coupled to a one side of a thin metallic plate. We believe that our approach is valid for any medium that
supports two propagating modes at the same frequency.
P37: Annular Hole Phononic Crystals for Surface Acoustic Waves
Benjamin James Ash, S. R. Worsfold, Peter Vukusic, Geoffrey R. Nash
University of Exeter (United Kingdom)
Novel annular hole arrays are used as phononic crystals for surface acoustic waves. Simulations show dispersions with low frequency bandgaps that can be tuned by the geometry of the annular holes and experiments
validate these simulations through expected attenuation of propagating waves. These annular holes improve
upon cylindrical pillar phononic crystals that have been the focus of much recent interest.
P38: High-Q perfect absorption based on coherent Fano resonances
Xianji Piao, Sunkyu Yu, Namkyoo Park
Seoul National University (Korea)
We realize narrowband perfect absorption of light by applying Fano resonances to guided-wave structures. By
transplanting the stub structure of microwave theory into the optical platform we derive the Fano resonance
for coherent incident waves, which allows the low-loss and high-Q perfect absorption. Its application as a
simplest but fundamental building block in opto-thermal devices such as absorptive switch and opto-thermal
emitter will be discussed.
P39: 3D Flexible and Tunable Plasmonic Platforms for Optical Biosensing
Monica Focsan, Monica Potara, Cosmin Leordean, Ana Maria Craciun, Dana Maniu, Simion Astilean
Babes Bolyai University (Romania)
There is an urgent need for the development of new optical, ultrasensitive, robust biosensor for the detection
of specific disease biomarkers in order to enable early diagnostics and improve diseases treatment.
P40: Magnetic properties of a mixture of a Liquid Crystal doped with Semiconductor Nanoparticles
Vicente Marzal, Braulio Garcia-Camara, Isabel Perez, Jose Manuel Sanchez-Pena
GDAF-UC3M (Spain)
Currently there are many efforts to improve the electro-optical properties of liquidcrystals by means of doping
them with different nanoparticle types. In this work we presentsimulation results of the magnetic properties of
several liquid crystals with inclusions of sphericalresonant semiconductor nanoparticles. Effective magnetic
permeability was obtained through threeeffective medium theories. Furthermore, the permeability variations
with size of the nanoparticle,its concentration in the liquid crystal and the magnetic anisotropy have been
studied.
P41: Parity-time symmetric analogy of relativistic electrodynamics
Sunkyu Yu, Xianji Piao, Namkyoo Park
Seoul National University (Korea)
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We prove that there exists a strong correspondence between optical PT-symmetry and relativistic electrodynamics, in the frame of pseudo-particle defined as the state of polarization and Lorentz-like pseudo-force
defined as the distribution of material parameters. We show that the SOP evolution on the Poincare sphere in
slowly-varying potential follows the relativistic motion of electric charges governed by electric, magnetic, and
nonlinear Lorentz force terms, and interpret the phases of PT symmetry in terms of electric- or magnetic-force
dominant regimes.
P42: Light Manipulation in Cylindrical Graphene-Covered Gyrotropic Structures
Dmitry Kuzmin1 , Igor Bychkov1 , Vladimir Shavrov2
1
Chelyabinsk State University (Russia), 2 Kotel’nikov Institute of Radio Engineering and Electronics of RAS
(Russia)
In this work we summarize results of our previous investigation on speckle-pattern rotation of light propagating
in gyrotropic graphene-covered optical fiber and present our new study on plasmon-polariton manipulation in
gyrotropic graphene-covered nanowire. Investigation shows that in both cases light energy distribution rotates
moving along propagation axis. Rotation angle may be controlled by both gyrotropy of the core and chemical
potential of graphene. Results may be used for development optics and plasmonic devices as well as for
sensing applications.
P43: Still azimuthal doughnuts in near-zero-index media
Andrea Marini, Javier F. Garcia de Abajo
ICFO - The Institute of Photonic Sciences (Spain)
Optical beams are generally unbound in bulk media. Here we reveal the existence of still doughnut-shaped
and azimuthally polarized solitons with vanishing Poynting vector and angular momentum in near-zero-index
media with Kerr nonlinearity. Our results suggest applications in optical data processing and storage, quantum
optical memories, and soliton-based lasers without cavities. Additionally, near-zero-index conditions can also
be found in the interplanetary medium and in the atmosphere, where we provide a complementary explanation
to the rare phenomenon of ball-lightning.
16:40 - 19:00 — Malaga
Session 2A22
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
16:40 : Invited talk
Enhancing Solar Cells and Photocatalysis via Plasmonic Nanostructures
Dongling Ma
Institut National de la Recherche Scientifique (Canada)
With unique surface plasmon resonance properties and high potential for many important applications, plasmonic nanostructures are attracting more and more attention in the past decade. In this presentation, the
development of several types of plasmonic nanostructures by wet chemical method or pulsed laser ablation
will be introduced first. Their interesting optical properties and their applications in solar cells and photocatalysis will then be presented and discussed.
17:00 : Invited talk
Plasmon-enhanced heteronanostructures for photocatalysis
Shah M. Bahauddin, Hossein Robatjazi, Chloe Doiron, Xuejun Liu, Thejaswi Tumkur, Parker Wray, WeiRen Wang, Bo Jiang, Isabell Thomann
Rice University (USA)
I will present optical cavity structures for efficient light absorption within plasmonic and low-dimensional thin
films, resulting in efficient hot electron generation for solar water splitting. Furthermore, we will discuss fabri-
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cation of ultrathin AAO membranes to serve as generic templates for centimeter scale nanostructure fabrication with sub-100 nm feature sizes. Time permitting, I will discuss charge carrier dynamics and imaging of
plasmon-enhanced heteronanostructures for photocatalysis.
17:20 : Invited talk
Spatial Control of Chemical Processes on Nanostructures through Nano-Localised Water Heating
Calum Jack1 , Affar S. Karimullah1 , Ryan Tullius1 , Larousse Khosravi Khorashad2 , Marion Rodier1 ,
Brian Fitzpatrick1 , Laurence D. Barron1 , Nikolaj Gadegaard1 , Adrian J. Lapthorn1 , Vincent M. Rotello3 ,
Graeme Cooke1 , Alexander O. Govorov2 , Malcolm Kadodwala1
1
University of Glasgow (United Kingdom), 2 Ohio University (USA), 3 University of Massachusetts (USA)
Here we report a rapid bottom-up approach to functionalise selective regions of plasmonic nanostructures
that utilises nano-localised heating of the surrounding water induced by pulsed laser irradiation. This localised heating is exploited in a chemical protection / de-protection strategy to allow selective regions of a
nanostructure to be chemically modified. As an exemplar, we use the strategy to enhance the biosensing
capabilities of a chiral plasmonic substrate.
17:40 : Invited talk
Engineering the Electromagnetic Properties of Plasmonic Nanohybrids for Solar Water Splitting
Luca Razzari1 , Jianming Zhang2 , Xin Jin1 , Pablo I. Morales-Guzman1 , Jerome Claverie2
1
INRS-EMT (Canada), 2 UQAM (Canada)
We will present engineered plasmonic nanohybrids featuring an enhanced photocatalytic activity in the solar
spectral range. Details about their electromagnetic design and experimental evidences of their efficacy in
water splitting experiments will be provided. Our findings show a possible route towards the design of full
solar spectrum photocatalysts.
18:00 : Invited talk
Plasmon-induced photoenergy conversion systems
Hiroaki Misawa
Hokkaido University (Japan)
We have demonstrated plasmonic photocurrent generation from visible to near-infrared wavelengths without
deteriorating photoelectric conversion using electrodes in which gold nanorods are elaborately arrayed on
the surface of a TiO2 single crystal. We have also reported the stoichiometric evolution of oxygen via water
oxidation by irradiating the plasmon-enhanced photocurrent generation system with near-infrared light.
18:20 : Invited talk
Preparation of Au-Ag Alloy Nanoparticles via Ionic Liquid/Metal Sputter Deposition and Their Application to Plasmon-induced Photosensitization
Tatsuya Kameyama1 , Eisaku Kumazawa1 , Susumu Kuwabata2 , Tsukasa Torimoto1
1
Nagoya University (Japan), 2 Osaka Univeristy (Japan)
Au-Ag nanoparticles having tunable wavelength of LSPR peak, prepared by ionic liquid/metal sputter deposition, were loaded on porous TiO2 electrodes. An anodic photocurrent was observed by the photoexcitation of
LSPR peak of the resulting electrodes.
18:40 : Invited talk
Nanophotonic Designs for Photovoltaics and Luminescent Solar Concentrators
Vivian Ferry
University of Minnesota (USA)
Luminescent solar concentrators hold many advantages for future photovoltaic designs, but are limited by
optical losses deriving from both the luminescent material and the optical geometry. In this paper we discuss
ways that Bragg mirrors and metamaterials can be used in cooperation with tailored luminescent nanocrystals
to achieve high concentration factors. We quantify the forms of the losses, and show how nanophotonics can
be used to change the necessary tolerances on the luminescent materials to achieve high performance.
16:40 - 19:45 — Ronda
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Session 2A23
SP20. Chiral Optics and Chiral Materials: Interplaying Structures
Organized by: David Andrews and Manuel Nieto-Vesperinas
Chaired by: David Andrews and Manuel Nieto-Vesperinas
16:40 : Keynote talk
Exploring nanoscale chirality: issues of parity, scale and measurement
David L. Andrews
University of East Anglia (United Kingdom)
The development of light beams with a vortex character in wave-front or polarization structure has brought
a new focus upon the fundamental science of chiral interactions. To understand the interplay and coupling
of optical and material chirality on the nanoscale generally invites recognition of quantum facets to the lightmatter interaction. This presentation identifies some of the key issues associated with spatial and temporal
parity, scale and measurement.
17:10 : Invited talk
Optical and acoustical radiation torque and forces: overview, applications, and selected recent developments
Philip Marston1 , Likun Zhang2
1
Washington State University (USA), 2 University of Texas at Austin (USA)
Beginning with Marston and Crichton’s analysis of optical radiation torque from the 1980s, the generation
and analysis of acoustical beams carrying axial angular momentum (from the 1990s) is surveyed along with
developments from the past decade involving negative radiation forces. Acoustical radiation forces are also
well suited for controlling the shape of liquid objects (as used for exploring light scattering caustics) and for
the suppression of capillary instabilities.
17:30 : Invited talk
Directionality in coherent dipole-dipole interactions
Joerg Bernhard Goette1 , Gaoyong Sun2 , Koen Corstiaan van Kruining2 , Thomas Pohl2
1
University of Glasgow (United Kingdom), 2 Max Planck Institute for the Physics of Complex Systems (Germany)
We investigate the photon mediated interaction of atoms trapped in the evanescent field of a waveguide or
nanofibre. The evanescent field features a locking between the spin and the direction of propagation which
we employ to drive selectively coherent dipole-dipole interactions between the trapped atoms.
17:50 : Invited talk
Chirality control at the nanoscale
Xavier Zambrana-Puyalto, N. Bonod
Aix-Marseille University (France)
We present a simple analytic formalism to model the interaction between a chiral emitter and a nanoantenna.
We compare the performances of metallic and dielectric spherical antennas to tailor the chirality of light
emission. It is observed that metallic spherical nanoparticles spoil the chirality of light emission by yielding
achiral fields. In contrast, thanks to the combined excitation of magnetic and electric modes, dielectric Sibased particles feature the ability to inhibit or boost the chirality of light emission.
18:10 : Invited talk
Chirality in evanescent near fields
Euan Hendry
University of Exeter (United Kingdom)
We demonstrate the generation of short-range, chiral electromagnetic fields by the excitation of chiral arrays
of metallic antennas, and present proof of principal experiments using chiral microwave antennas and small
probe helices to represent chiral molecules. By building up a physical understanding of both the generation
of chiral near fields and their interaction with chiral matter, one can begin to harness the potential for sensing,
measurement and characterization.
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18:30 : Invited talk
Helicity of Structured Light
Alison Yao1 , Robert Cameron2 , Christopher Gibson1 , Stephen Barnett2 , Gian-Luca Oppo1
1
University of Strathclyde (United Kingdom), 2 University of Glasgow (United Kingdom)
Light with spatially inhomogeneous states of polarization, such as vector and Poincare beams, can also
have non-uniform helicity density. The resultant gradients in helicity density will generate a force that will
interact differently with opposite enantiomers of chiral molecules. By propagating these structured beams
through nonlinear self-focusing media we can enhance this chiral force with the potential for manipulating
chiral molecules.
18:50 : Invited talk
Chirality of microwave fields
Eugene Kamenetskii, Maksim Berezin, Elad Hollander, Reuven Shavit
Ben Gurion University (Israel)
In optics, the field chirality on the subwavelength scales can be obtained based on special-form plasmonic
structures. It was shown that with use of quasi-2D ferrite disks with magnetic-dipolar-mode (MDM) oscillations
one can observe near-field chirality in microwaves. The fields originated from a MDM ferrite disk, - magnetoelectric fields - carry both spin and orbital angular momentums. They are characterized by power-flow vortices
and non-zero helicity. We consider ME-field chirality in the near- and far-field regions of microwave radiation.
19:10 : Invited talk
Mechanical effects of highly twisted light interacting with two-level atoms
Vasileios E. Lembessis1 , Mohamed Babiker2 , Demosthenes Ellinas3
1
King Saud University (Saudi Arabia), 2 University of York (United Kingdom), 3 Technical University of Crete
(Greece)
We consider the interaction of a two-level atom with a Laguerre-Gaussian (LG) light beam with high values
of radial index, p , and/or winding number l. We focus on the effects of the Gouy phase together with other
phase contributions due to the curvature in a LG beam when it interacts with atoms at near resonance.
19:30 : Helicity transfer between particles
Manuel Nieto-Vesperinas
CSIC (Spain)
Due to the conservation of the electromagnetic helicity, I will show the consequence for energy transfer of
a recent optical theorem that I established for the helicity of wave-fields, (equivalent to the so-called optical
chirality for time-harmonic waves), on scattering with chiral structures. In analogy with a FRET process, the
helicity is transferred between a donor and acceptor thus conveying information of their respective chirality
properties.
16:40 - 18:55 — Nerja
Session 2A24
SP11. Hyperbolic metamaterials: Theory, Experiments and Applications
Organized by: Giuseppe Strangi
Chaired by: Giuseppe Strangi
16:40 : Invited talk
Optical signal dispersion in hyperbolic metamaterials
Tomasz Stefaniuk, Anatoly Zayats
King’s College London (United Kingdom)
We present the study of ultrashort pulse dynamics in hyperbolic plasmonic metamaterial. The transient Kerrtype nonlinear response of metamaterials is simulated by introducing the nonlinearity of Au using the two
temperature model. In the nanorod metamaterial the nonlinearity is not limited by the optical properties of the
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constituents, but it can be designed to be stronger than in uniform materials at a given spectral range. We
demonstrate that this effect can be used for dispersion management of ultrashort pulses.
17:00 : Invited talk
Hyperbolic Metamaterials with Complex Geometry
Andrei V. Lavrinenko, Andrei Andryieuski, Sergei Zhukovsky, Osamu Takayama, Evgeniy Skhondin,
Mohammad Aryaee Panah, Radu Malureanu, Flemming Jensen
Technical University of Denmark (Denmark)
We investigate new geometries of hyperbolic metamaterials such as highly corrugated structures, nanoparticle monolayer assemblies, super-structured or vertically arranged multilayers and nanopillars. All structures
retain basic properties of hyperbolic metamaterials, but have functionality improved on particular purpose:
increased absorption, radiative decay enginnering, and selective control over volume plasmon-polaritons or
directional surface waves.
17:20 : Invited talk
Advanced plasmonic metamaterials for ultrasensitive biosensing
Andrei V. Kabashin
Aix-Marseille University (France)
This presentation will overview our on-going activities on the improvement of physical sensitivity of plasmonic
biosensors. Our approach is based on the employment of designed plasmonic metamaterials, which could
provide a much improved sensing response over conventional Surface Plasmon Resonance (SPR) sensor
configurations and offer novel attractive functionalities for biological sensing/recognition.
17:40 : Block-copolymer based self-assembled hyperbolic metamaterials in the visible range
Xuan Wang1 , Kevin Ehrhardt1 , Morten Kildemo2 , Alexandre Baron1 , Valeria Lotito1 , Philippe Barois1 ,
Ashod Aradian1 , Virginie Ponsinet1
1
Bordeaux University (France), 2 NTNU (Norway)
Hyperbolic metamaterials use the control of the propagative modes through the engineering of the dispersion
relation, and are considered highly promising to reach different meta-properties. However, simple and large
scale fabrication technologies allowing controlled final optical properties at chosen frequency ranges (including the visible one) are still needed. Here we present the fabrication and optical study using spectroscopic
ellipsometry, of nanocomposites based on metal nanoparticles embedded in a self-assembled anisotropic
polymer host, presenting a strong spectrally selective optical anisotropy.
17:55 : Hyperbolic Magnetic Media as Tunable Slab Lenses
Rair Macedo1 , Robert L. Stamps1 , Thomas Dumelow2
1
University of Glasgow (United Kingdom), 2 Universidade do Estado do Rio Grande do Norte (Brazil)
We investigate a class of hyperbolic materials that not only display negative refraction and focusing in a lens
with parallel sides but also allow one to modify the focal length of aslab lens with an externally applied magnetic eld. This is possible because antiferromagnets aregyrotropic and support magnetic polaritons whose
frequencies are sensitive to magnetic elds. Inaddition, a rich caustic structure emerges at low temperatures,
when damping should be small.
18:10 : Purcell effect in multiperiodic multilayered metal-dielectric metamaterials
Alexandr V. Chebykin1 , Victoria Babicheva2 , Ivan V. Iorsh1 , Alexey A. Orlov1 , Pavel Belov1 , Sergei
Zhukovsky3
1
ITMO University (Russia), 2 Georgia State University (USA), 3 DTU Fotonik (Denmark)
Purcell effect in multiperiodic metal-dielectric metamaterials was studied theoretically. We have demonstrated
that one can use multiperiodicity to obtain greater values of Purcell factor than in ordinary periodic metamaterials. Further enhancement of spontaneous emission was reached by including a cavity layer in multiperiodic
structure. We have analyzed the dependency of Purcell factor on the emitter location for structures both
with and without cavity. Our results can be useful for more efficient manipulation of spontaneous emission in
metamaterials.
18:25 : THz wire medium operating as a ultra-broadband imaging device
Korbinian Julius Kaltenecker1 , Alessandro Tuinz2 , Simon C. Fleming2 , Alexander Argyros2 , Boris T.
Kuhlmey2 , Markus Walther1 , Bernd M. Fischer3
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1
University of Freiburg (Germany), 2 University of Sydney (Australia), 3 French-German Research Institute of
Saint-Louis (France)
Wire media can be used for non-diffractive, sub-diffraction-limited image transmission over several wavelength. A perfect reconstruction of transmitted field distribution, however, has been limited to narrow frequency
windows defined by the Fabry-Perot resonance condition. We propose and demonstrate that this restrication
can be overcome by using ultra short THz pulses and measuring the electric field in the time domain.
18:40 : Imaging of anomalous internal reflections of hyperbolic phonon-polaritons in hexagonal boron
nitride nanocones
Alexander J. Giles1 , Siyuan Dai1 , Orest J. Glembocki1 , Andrey V. Kretinin2 , Zhiyuan Sun3 , Chase
T. Ellis1 , Joseph G. Tischler1 , Takashi Tanaguchi2 , Kenji Watanabe1 , Michael M. Fogler4 , Kostya S.
Novoselov1 , Dimitri N. Basov3 , Joshua D. Caldwell1
1
United States Naval Research Laboratory (USA), 2 U.S. Naval Research Laboratory (USA), 3 University of
Manchester (United Kingdom), 4 National Institute for Materials Science, (Japan)
We use scanning near-field optical microscopy to study the response of hexagonal boron nitride nanocones
at infrared frequencies, where this material behaves as a hyperbolic medium. The obtained images are dominated by a series of hot rings that occur on the sloped sidewalls of the nanocones, which are consistent
with directional propagation of hyperbolic phonon-polaritons (HPhP) rays that are launched at the edges and
zigzag through the interior of the nanocones, sustaining multiple internal reflections off the sidewalls.
16:40 - 19:00 — Antequera
Session 2A25
SP22. Microcavity Polaritons: fundamental physics and devices
Organized by: Alberto Bramati
Chaired by: Guillaume Malpuech
16:40 : Invited talk
Unitary dynamics of a propagating quantum fluid of light in a cavityless nonlinear optical medium
P.- E. Larre, Iacopo Carusotto
Universita di Trento (Italy)
We discuss the potential of bulk nonlinear optical media in cavityless configurations for quantum statistical
mechanics studies of the unitary many-body dynamics in a gas of interacting photons. A critical comparison
with more usual driven-dissipative dynamics in microcavity devices is made.
17:00 : Invited talk
Nonlocal Fluids of Light
Daniele Faccio1 , David Vocke1 , Kali Wilson1 , Thomas Roger1 , Francesco Marino2 , Calum Maitland1 ,
Iacopo Carusotto3 , Brian P. Anderson4 , Ewan M. Wright4
1
Heriot-Watt University (United Kingdom), 2 CNR-Istituto Nazionale di Ottica (Italy), 3 Universita di Trento
(Italy), 4 University of Arizona (USA)
The transverse spatial profile of an intense light beam propagating in a thermal nonlinear medium evolves
following the hydrodynamical equations. The interplay between the geometry of the light beam and the nonlocal thermal response strongly affects superfluid behaviour, as shown by experiments studying quantised
vortex nucleation from an obstacle. A properly tailored nonlocal response and beam geometry is also used
to simulate the Newton-Schrodinger equation and provide an experimental testbed for astrophysical studies
e.g. of boson stars.
17:20 : Invited talk
Exciton-polariton lasers based on biologically produced fluorescent proteins
Sven Hoefling1 , C. P. Dietrich1 , A. Steude1 , L. Tropf1 , M. Schubert1 , N. M. Kronenberg1 , K. Ostermann2 ,
M. C. Gather3
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1
University of St Andrews (USA), 2 Technische Universitat Dresden (Germany), 3 Universitat Wurzburg (Germany)
Under adequate conditions, cavity-polaritons can form a Bose-Einstein condensate (BEC). Here, we demonstrate room-temperature BEC of cavity-polaritons in simple laminated microcavities filled with biologically
produced enhanced green fluorescent protein (eGFP). The unique molecular structure of eGFP prevents exciton annihilation even at high excitation densities, thus facilitating BEC. BEC is clearly evidenced by a distinct
threshold, an interaction-induced blue shift of the condensate and the presence of a second threshold, which
is associated with the onset of photon lasing.
17:40 : Invited talk
Polariton lasing in hybrid organic-inorganic microcavity
G. Paschos1 , N. Somaschi2 , G. Christmann2 , D. Coles3 , D. G. Lidzey3 , Z. Hatzopoulos2 , S. I. Tsintzos2 ,
P. G. Lagoudakis4 , Pavlos Savvidis1
1
University of Crete (Greece), 2 Institute of Electronic Structure / Laser-FORTH (Greece), 3 University of Sheffield (United Kingdom), 4 University of Southampton (United Kingdom)
In this work we study hybrid exciton-polaritons that arise from mixing of two different organic-inorganic excitonic species with the resonant photon mode. A planar microcavity structure consists of GaAs QWs and Jaggregate molecular dye assembled together in a multi-layered stack to form the active region. Angle-resolved
photoluminescence at 80K reveals clear anticrossing. Furthermore, through power dependent measurements
we demonstrate for the first time strong nonlinear emission and onset of hybrid polariton lasing regime.
18:00 : Invited talk
Towards strongly confined exciton-polariton Bose-Einstein condensates with a polymer at ambient
conditions
Darius Urbonas, Fabio Scafirimuto, Lijian Mai, Rainer F. Mahrt, Thilo Stoeferle
IBM Research (Switzerland)
We create exciton-polaritons in a microcavity filled with a ladder-type conjugated polymer. At room temperature, we observe thermalization and, above a critical excitation density, Bose-Einstein condensation of the polaritons, as evidenced through nonlinear emission, interaction-induced blue-shift and long-range macroscopic
coherence. Our approach demonstrates a radically simplified route to investigate Bose-Einstein condensation
physics at ambient conditions with easy-to-process non-crystalline materials. Finally, we discuss recent experiments on nanoscale defect cavities to produce strongly confined condensates and possible ways towards
quantum simulation.
18:20 : Invited talk
Polariton condensation phase diagram in a ZnO microcavity: what else besides room-temperature?
Jesus Zuniga-Perez1 , Omar Jamadi2 , Francois Reveret2 , Rereao Hahe3 , Feng Li1 , Mathieu Leroux1 ,
Fabrice Semond1 , Joel Leymarie2 , Pierre Disseix2 , Francois Medard2 , Martine Mihailovic2 , Thierry
Guillet3 , Christelle Brimont3 , Sophie Bouchoule4 , Xavier Lafosse4 , Dmitry Solnyshkov2 , Guillaume
Malpuech2
1
CRHEA-CNRS (France), 2 Institut Pascal (France), 3 L2C (France), 4 LPN-CNRS (France)
The condensation phase diagram of a ZnO microcavity shows that in wide bandgap microcavities, contrary
to a common assumption, the strong exciton-LO phonon interaction does not necessarily lead to a reduction
of the polariton condensation threshold. Most important, the condensation threshold is found to be a strongly
varying function of the excitation spot size and to display an absolute minimum, for this microcavity and at
room-temperature, for an excitation spot diameter of about 12 micrometers.
18:40 : Invited talk
Control of the generation and propagation of polariton condensates at 300K in ZnO microcavities
Rereao Hahe1 , Hamis Gargoubi1 , Christelle Brimont1 , Brahim Guizal1 , Sihem Jaziri2 , Sophie Bouchoule3 ,
Xavier Lafosse3 , Feng Li4 , Mathieu Leroux4 , Fabrice Semond4 , Jesus Zuniga-Perez4 , Thierry Guillet1
1
Universite de Montpellier (France), 2 Faculte des Sciences de Bizerte (Tunisia), 3 LPN-CNRS (France), 4 CRHEACNRS (France)
The spatial dynamics of the formation of a polariton condensate under a tightly focused excitation is imaged
through 2D near-field and far-field 2D tomography in a ZnO microcavity, up to room temperature. The modelling exhibits the role of the outwards polariton flux caused by the reservoir repulsion, that leads to a 3 to 10
fold increase of the condensation threshold and is imprinted in the shape of the polariton condensate.
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16:40 - 19:00 — Fuengirola
Session 2A26
SP34. Fano resonances in optics and microwaves: Physics and application
Organized by: Eugene Kamenetskii
Chaired by: Philippe Tassin
16:40 : Invited talk
Sharp Fano resonances arising from coupling between surface plasmon polariton and waveguide
modes
Shinji Hayashi1 , Dmitry V. Nesterenko2 , Anouar Rahmouni2 , Zouheir Sekkat2
1
Kobe University (Japan), 2 Morrocan Foundation for Advanced Science, Innovation and Research (MAScIR)
(Morocco)
Fano resonances arising from coupling between the surface plasmon polariton and planar waveguide modes
supported by multilayer planar structures are studied theoretically and experimentally. Sharp Fano resonances with high Q values in angle-scan attenuated total reflection (ATR) spectra are theoretically predicted and
confirmed experimentally. The multilayer structures can easily be fabricated without nanofabrication techniques and allow potential applications in sensing and enhanced spectroscopy.
17:00 : Invited talk
Utilizing Fano resonances in chiral and dielectric nanoparticle oligomers
Ben Hopkins1 , Francesco Monticone2 , Andrey E. Miroshnichenko1 , Andrea Alu2 , Yuri Kivshar1
1
Australian National University (Australia), 2 University of Texas at Austin (USA)
We present recent results on the use of Fano resonances to provide (i) circularly-dichroic behavior in planar
chiral nanoparticle oligomers, and (ii) strong enhancement of magnetic response from silicon nanoparticles.
This work thereby illustrates a more directed use of Fano resonances to produce novel optical behavior in
nanoantenna and metasurface scattering geometries.
17:20 : Invited talk
Fano resonances and band structure of two-dimensional photonic structures
Peter Markos
Comenius University in Bratislava (Slovakia)
We calculate the transmission of the electromagnetic wave propagating througha linear array of dielectric,
metallic and metamaterial cylinders and show that frequencies ofobserved Fano resonances coincide with
the position of very narrow frequency bands found in thespectra of corresponding two-dimensional photonic
crystals. We discuss some other consequencesof excited Fano resonances to the frequency spectrum of
two-dimensional photonic crystals.
17:40 : Invited talk
Demonstration of true electromagnetically induced transparency in a metamaterial
Toshihiro Nakanishi, Masao Kitano
Kyoto University (Japan)
We propose a way to realize electromagnetically induced transparency (EIT) in a metamaterial. The incidence
of auxiliary electromagnetic waves renders the metamaterial transparent exactly in the same way as the case
of original EIT effect in an atomic medium. We show the design of the metamaterial loaded with nonlinear
capacitances and demonstrate the EIT effect in the metamaterial in microwave region.
18:00 : Invited talk
Degenerate Fano resonance between multipole surface plasmons in a metallic nanohole array
Munehiro Nishida, Noriyuki Hatakenaka, Yutaka Kadoya
Hiroshima University (Japan)
When the size of a nanohole occupies relatively large portion of the unit cell ofan array of nanoholes perforated
in thin metallic film, the surface plasmon polaritons (SPPs)are combined by the higher order waveguide
modes of the holes to produce multipole surfaceplasmons (MSPs): coupled SPPs with multipole texture on the
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electric field distributions. Itis shown that the degeneracy between MSPs with different symmetries produces
sharp Fanoresonance and causes nearly perfect absorption with strong field enhancement.
18:20 : Invited talk
Multiple electric and magnetic Fano resonances in single-layered core-shell particles
Tiago Jose Arruda1 , Alexandre Souto Martinez1 , Felipe Arruda de Araujo Pinheiro2
1
Universidade de Sao Paulo (Brazil), 2 Universidade Federal do Rio de Janeiro (Brazil)
Using the Lorenz-Mie theory, we derive an analytical condition for the occurrence ofmutiple Fano resonances
in single scattering by coated spheres composed of magnetic materials.This condition establishes that Fanocomb scattering response depends uniquely on materialparameters and thickness of the shell, provided that
it is magnetic and thin compared to thescatterer radius. We argue that both position and profile of these Fano
resonances could beexternally tuned by engineering magnetic materials.
18:40 : Invited talk
Multivariable Fano line shape in guided-mode resonant gratings
Dmitry A. Bykov, Leonid L. Doskolovich, Nikita V. Golovastikov
The Russian Academy of Sciences (Russia)
We study generalizations of the Fano line shape that describe the scattering amplitude as a function of several variables. In particular, we obtain simple approximations for the transmission coefficient of guided-mode
resonant (GMR) gratings as a function of both frequency and in-plane wavevector components of the incident
wave. The approximations take into account symmetries of the structure, causality and energy conservation conditions. The proposed theory describes angular tolerances of GMR filters and spatio-temporal pulse
transformations implemented by GMR gratings.
16:40 - 19:45 — Estepona
Session 2A27
SP2. Acoustic, Mechanical and Thermal Metamaterials
Organized by: Mohamed Farhat and Sebastien Guenneau
Chaired by: Mohamed Farhat and Sebastien Guenneau
16:40 : Invited talk
Parity-time synthetic phononic media
Johan Christensen
DTU (Denmark)
In this presentation we show how active acoustic media can be engineered and tuned to work as a Paritytime (PT) synthetic phononic system. We demonstrate a feasible approach for the case of sound where the
most important ingredients within synthetic materials, loss and gain, are achieved through electrically biased
piezoelectric semiconductors. With colorful examples we demonstrate the rich physics involved and the broad
landscape for applications associated with the PT properties.
17:00 : Invited talk
Dynamic elastic anisotropy and homogenisation
Richard Craster1 , D. Colquitt2 , Tryfon Antonakakis3
1
Imperial College London (United Kingdom), 2 Liverpool University (United Kingdom), 3 Multiwave AG (Switzerland)
The full elasticity equations are a vector system that connect stresses and displacements. For structured
media, composites or materials that have resonators or inclusions embedded within them or upon them, it is
natural to try and obtain effective mediaequations. Unfortunately in several applications one is not in a regime
where quasi-static homogenisations is valid and so we consider dynamic homogenisation.
17:20 : Invited talk
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Theory and experimental realization of the emergence, coalescence and topological properties of
multiple exceptional points
Kun Ding, Guancong Ma, Meng Xiao, Z. Q. Zhang, C. T. Chan
The Hong Kong University of Science and Technology (Hong Kong)
We consider the emergence and interaction of multiple exceptional points in a four-state system theoretically
and realize the system experimentally using four coupled acoustic cavities with asymmetric losses. We find
the system exhibit multiple EPs that can collide and merge, leading to higher order singularities and topological characteristics not found in two-state systems. The new physics obtained here in acoustic systems can
be extended to other kinds of waves.
17:40 : Invited talk
Rainbow trapping in mechanical vibrations
Rafael A. Mendez-Sanchez1 , Arturo Arreola-Lucas2 , Gabriela Baez2 , Francisco Cervera3 , Alfonso Climente3 ,
Jose Sanchez-Dehesa3
1
Universidad Nacional Autonoma de Mexico (Mexico), 2 Universidad Autonoma Metropolitana Azcapotzalco
(Mexico), 3 Universitat Politecnica de Valencia (Spain)
The emergence of the rainbow trapping effect is shown experimentally. We started with a beam in which a
chirped structure was machined at one side. At the other side a passive vibration isolation system was used.
In the middle wave packets were generated using an electromagnetic-acoustic transducer. For different values
of the chirp intensity the analog the rainbow trapping effect, was found. The predicted effect was measured in
the structured beam.
18:00 : Invited talk
Homogenisation of acoustic and elastic metamaterials
Mehul Makwana1 , B. Maling2 , S. Guenneau3 , R. V. Craster2
1
Multiwave Technologies AG (Switzerland), 2 Imperial College London (United Kingdom), 3 Aix-Marseille University (France)
The propagation of waves through microstructured media with periodically arranged inclu- sions has applications in many areas of physics and engineering, stretching from photonic crystals through to seismic
metamaterials. In the high-frequency regime, modeling such behavior is complicated by multiple scattering
of the resulting short waves between the inclusions. Our aim is to develop an asymptotic theory for modeling
systems with arbitrarily shaped inclusions located on general Bravais lattices.
18:20 : Wave propagation in periodic structures and focusing of the ultrasound waves
Piotr Fiborek, Pawel Kudela, Maciej Radzienski, Wieslaw Mieczyslaw Ostachowicz
Institute of Fluid-Flow Machinery Polish Academy of Sciences (Poland)
Analytical studies and numerical simulations are performed in order to show capability of focusing of ultrasound waves in air by an acoustic lens. Wave focusing is realized by beamforming resulting from appropriate
time delays of excited waves. Proposed type of acoustic lens is able to generate sound bullet in desired location. The feasibility of control of sound bullet is confirmed by series of experimental investigation on wave
propagation in periodic structures.
18:35 : Heat mimicking of given objects
Ahmed Alwakil1 , Myriam Zerrad2 , Michel Bellieud3 , Claude Amra1
1
Institut Fresnel (France), 2 Aix Marseille Universite (France), 3 Universite de Montpellier (France)
We address an inverse thermal engineering problem devoted to heat mimicking. The objects to cloak and
mimic are predefined in shape and conductivity, which leads to emphasize a specific set of transformations.
18:50 : Bio-inspired seismic metamaterials
Ronald Aznavourian1 , Tania Puvirajesinghe2 , Stephane Brule3 , Stefan Enoch1 , Sebastien Guenneau1
1
Institut Fresnel (France), 2 Institut Paoli-Calmettes (France), 3 Dynamic soil laboratory (France)
We consider geometric transforms underpinning the design of cloaks in graphene in the context of elastodynamics. We generate a whole class of bio-inspired cloaks that are deduced from mappings of the plane with
morphing techniques. Interestingly, morphing techniques allow us to straightforwardly deduce elastic wave
patterns in bio-inspired cloaks from the rigorous computations performed with FDTD simulations. Analogies
drawn between thermal waves in (nano-scale) graphene and seismic waves in structured soils conclude our
survey of transformation biophysics for civil engineering.
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19:05 : Invited talk
Low frequency sound screening using an acoustic metamaterial made of space-coiled resonant cavities
A. Elayouch, M. Addouche, Y. Tejda, A. Khelif
Universite de Franche-Comte (France)
In this work, we report on designs of locally resonant acoustic metamaterials that enable us to generate low
frequency sound screening. We investigate both experimentally and theoretically how to generate asymmetric
lineshapes of the transmission that lead to acoustic opacity. For this, we study the transmission properties of
an acoustic metamaterial involving the coupling of space coiled Fabry-Perot cavities.
19:25 : Invited talk
Total hyperelastic invariance - stretching the truth?
William J. Parnell1 , Pu Zhang1 , Vincent Pagneux2
1
University of Manchester (United Kingdom), 2 Universite Du Maine (France)
The concept of hyperelastic invariance has been employed recently in various contexts associated with metamaterials and in particular in association with elastodynamic cloaking and elastic wave disentanglement.
Here the concept of total hyperelastic invariance is investigated and it is shown that strain energy functions
can be theoretically devised that leave certain linear elastic waves unaffected by the presence of nonlinear
pre-stress.
16:40 - 17:55 — Benalmadena
Session 2A28
SP6. Quantum plasmonics and metamaterials
Organized by: Humeyra Caglayan and Serkan Ates
Chaired by: Humeyra Caglayan and Serkan Ates
16:40 : Invited talk
Quantum Dot Microlenses: Building Blocks for Quantum Communication Networks
A. Thoma1 , M. Gschrey1 , P. Schnauber1 , A. Kaganskiy1 , S. Fischbach1 , R. Schmidt1 , B. Wohlfeil2 , M.
Seifried1 , J.-H. Schulze1 , S. Burger2 , F. Schmidt2 , A. Carmele1 , A. Knorr1 , A. Strittmatter1 , T. Heindel1 ,
S. Rodt1 , Stephan Reitzenstein1
1
Technische Universitat Berlin (Germany), 2 Zuse-Institut Berlin (Germany)
Bright quantum light sources based on single semiconductor quantum dots (QDs) integrated into photonic
microstructures are key building blocks for the realization of advanced quantum communication schemes. We
report on the deterministic fabrication of QD-microlenses with excellent optical and quantum-optical properties
in terms of the photon extraction efficiency (hext=30 percent), the single photon purity (g(2)(0)
17:00 : Invited talk
Quantum Metamaterials with quantum dots
Emmanuel Rousseau, Felbacq Didier
Universite Montpellier (France)
This paper adresses the question of the correct hamiltonian to describe a quantum metamaterials in the
optical frequency range. A quantum metamaterials is a metamaterial structure inside which quantum degrees
of freedom have been inserted. We consider a dielectric metamaterials made of dielectrics rods in a periodic
conguration. Such a structure exhibits homogeneous optical properties including negative refraction. The
quantum degree of freedom are quantum dots.
17:20 : Invited talk
Coupling of quantum emitters and single plasmonic particles for quantum non-linear elements
Gunter Kewes1 , Alexander Kuhlicke1 , Andreas W. Schell2 , Oliver Benson1
1
Humboldt-University Berlin (Germany), 2 Kyoto University (Japan)
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We introduce realistic structures for non-linear quantum plasmonic elements. The structures consist of grating coupler, dielectric and plasmonic waveguides coupled to single organic molecules. Fabrication, numerical
simulation and optimization strategies are discussed. Additionally, we demonstrate a novel approach for detailed investigation of chemically synthesized plasmonic nanoparticles or nanowires.
17:40 : Noise induced narrowing of metamolecule fluorescence spectral line
Evgeny Andrianov1 , Nikolay Chtchelkatchev2 , Alexander Pukhov1
1
All-Russia Research Institute of Automatics (Russia), 2 Moscow Institute of Physics and Technology (Russia)
We consider metamolecule consisting of plasmonic nanoparticle correlated withthe atoms and driven by
external electromagnetic field. Quantum Monte-Carlo simulations show splitting of the Wigner function of
metamolecule near-field and a strong (by the order of magnitude) narrowing of spectral line of metamolecule
fluorescence which take place at finite domain over the coherent drive with sharp threshold. Such narrow line
fluorescence may find wide applications in plasmonics where high losses is unavoidable problem.
18:15 - 19:15 — Benalmadena
Session 2A29
SP23. Subwavelength grating structures and metamaterials for integrated
photonics
Organized by: Pavel Cheben and Robert Halir
Chaired by: Pavel Cheben
18:15 : Invited talk
Inverse dispersion engineering in integrated waveguides
David Castello-Lurbe1 , Victor Torres-Company2 , Enrique Silvestre3
1
Vrije Universiteit Brussel (Belgium), 2 Chalmers University of Technology (Sweden), 3 Universitat de Valencia
(Spain)
We present a differential tool to find the cross-section geometry of integrated waveguides that matches a
target dispersion profile. Our approach is more efficient than usual trial-and-error procedures, particularly for
geometries with several degrees of freedom. By applying our strategy, we find several ultraflattened dispersion
curves over 350 nm bandwidth in a silicon-on-insulator waveguide in less than 10 iterations.
18:35 : Invited talk
Effect of jitter in subwavelength grating waveguides and devices
Jiri Ctyroky
Institute of Photonics and Electronics AS CR (Czech Republic)
Subwavelength grating waveguides are important building blocks of modern Si-based integrated-optical circuitry. However, accurate fabrication of structures composed of submicrometer-size Si blocks is challenging.
Deep understanding of the influence of fabrication imperfections on the device performance is thus required.
Therefore, the effect of pseudo-random errors in size and position of Si nanoblocks on the transmission of
such waveguides was numerically studied. Results will be analyzed and physically justified, and conclusions
for the device design will be drawn.
18:55 : Invited talk
Sub-wavelength engineered high directionality fiber-to-chip blazed grating couplers
Carlos Alonso Ramos1 , Daniel Benedikovic1 , Pavel Cheben2 , Diego Perez-Galacho1 , Jens H. Schmid2 ,
Shurui Wang2 , Dan-Xia Xu2 , Boris Lamontagne2 , Jean Lapointe2 , Siegfried Janz2 , Robert Halir3 , Alejandro Ortega-Monux3 , J. Gonzalo Wanguemert-Perez3 , Inigo Molina-Fernandez3 , Jean-Marc Fedeli4 ,
Milan Dado5 , Eric Cassan1 , Delphine Marris-Morini1 , Laurent Vivien1
1
Universite Paris Sud (France), 2 National Research Council (Canada), 3 Universidad de Malaga (Spain),
4
CEA-LETI (France), 5 University of Zilina (Slovakia)
We report on development of fiber-chip grating couplers that exploit the blazing effect by interleaving standard
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full and shallow etch trenches in the silicon layer to maximize directionality. The coupler also includes a
subwavelength-engineered index matching region, designed to reduce the reflectivity at the interface between
the injection waveguide and the grating, yielding coupling efficiency of -1.3 dB.
16:40 - 19:00 — Mijas
Session 2A30
SP31. Plasmonic Nanocircuits: Fundamentals and Devices
Organized by: Hong Wei
Chaired by: Teri W. Odom and Erik Dujardin
16:40 : Invited talk
New Building Blocks for Quantum Technologies: Doped Carbon Nanotubes and Plasmonically Coupled
Quantum Dots Molecules
Han Htoon
Los Alamos National Laboratory (USA)
I will present two novel systems capable of serving as new building blocks for Quantum Information Technologies. First, I will present that solitary oxygen dopants covalently attached to the carbon nanotubes can
serve as room temperature single photon emitters in telecommunication wavelength. I will then show that
the plasmonic field of a gap-bar nano-antenna can induced coupling between two thick-shell quantum dots
separated by more than 30 nm, forcing them to emit as a single quantum emitter.
17:00 : Invited talk
Strong plasmon-exciton coupling on individual nanoantenna level
G. Zengin, M. Wersall, T. J. Antosiewicz, M. Kall, Timur Shegai
Chalmers University of Technology (Sweden)
We demonstrate strong coupling between plasmonic nanocavities and molecular excitons at room temperature on a single plasmonic nanoparticle level. These results open up possibilities for room temperature
quantum optics as opposed to previous experiments that have been performed at cryogenic temperatures
and in vacuum using various cavity-emitter configurations in atomic and solid state systems.
17:20 : Invited talk
Optical Stark-effect in J-aggregate-metal hybrid nanostructures
Parinda Vasa
Indian Institute of Technology Bombay (India)
We report on the observation of optical Stark effects in J-aggregate-metal hybrid nanostructures exhibiting
strong exciton-surface-plasmon-polariton coupling. For red-shifted nonresonant excitation, pump-probe spectra show characteristic features of pump-induced Stark shift of the polariton resonances. For larger coupling
strengths, we observe largely enhanced Stark shift with opposite sign caused by a transient reduction in normal mode splitting. Such a strong coherent interaction may be useful for applications in ultrafast all-optical
switching.
17:40 : Invited talk
Taming single solid-state quantum systems and mesoscopic objectives at the nanoscale
Xuewen Chen
Huazhong University of Science and Technology (China)
We report on controllable and highly efficient coherent and incoherent interactions of propagating photons
and single quantum systems in solid state. Depending on the configuration and the regime of interactions,
a single emitter show great impact on a mesoscopic objective (or vice versa ) by cloaking, or by enhancing
extinction cross section of a few orders of magnitude, or by starting coherent oscillation. We present new
experimental efforts on building highly bright single-photon sources.
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18:00 : Invited talk
Plasmon-mediated generation of continuum emission in metal nanoparticle hot spots
Sebastian Bange, Tobias Haug, Philippe Klemm, John M. Lupton
Universitat Regensburg (Germany)
Ultrafast near-infrared laser pulses can excite localized broadband luminescence on disordered noble-metal
nanoparticle surfaces. The nonlinear emission from individual hot spots spans a continuum covering the nearinfrared and visible range, and its spectroscopic signatures can be explained by radiative relaxation of hot
electrons within the conduction band. The electron gas in the emitting particles is heated to several thousand
Kelvin, since the plasmonic environment enhances the excitation cross section and funnels additional energy
into the hot spot.
18:20 : Invited talk
Localized surface plasmon enhanced and modulated nonlinear optical processes: second harmonic
generation and upconversion emissions
Dang Yuan Lei
The Hong Kong Polytechnic University (Hong Kong)
This talk will present our recent theoretical and experimental investigations on using localized surface plasmons to significantly enhance several nonlinear optical processes, including second harmonic generation,
two-photon luminescence and upconversions, and their applications in bioimaging and biosensing.
18:40 : Invited talk
Quantum Yield of Single Surface Plasmons Generated by a Quantum Dot Coupled with a Silver Nanowire
Hong Wei1 , Qiang Li1 , Hongxing Xu2
1
Chinese Academy of Sciences (China), 2 Wuhan University (China)
The interactions between surface plasmons in metal nanostructures and excitons in quantum emitters lead
to many interesting phenomena that are strongly dependent on the quantum yield of surface plasmons. The
experimental measurement of this quantum yield is hindered due to the difficulty in distinguishing all the
possible exciton recombination channels. By utilizing the propagation of surface plasmons, we experimentally
determined the quantum yield of single surface plasmons generated by a quantum dot coupled with a silver
nanowire.
19:00 - 19:20 — Mijas
Session 2A31
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Mikhail Kats
19:00 : Invited talk
Nonlinear Beam Shaping with Plasmonic Metasurfaces
Shay Keren-Zur, Ori Avayu, Lior Michaeli, Tal Ellenbogen
Tel Aviv University (Israel)
We demonstrate how to engineer the nonlinear interaction in plasmonic metasurfaces and shape the nonlinear
emission by tailoring the spatial distribution of the metasurface nonlinearity. This enables perfect nonlinear
beam shaping, unmatched by conventional nonlinear materials.
16:40 - 18:00 — Sierra Nevada
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Session 2A32
GEN2. Metamaterials and negative index materials
Chaired by: Jonathan Gratus
16:40 : Invited talk
Recent experimental progress of reversed Cherenkov radiation in left-handed metamaterial
Zhaoyun Duan1 , Xianfeng Tang1 , Zhanliang Wang1 , Yabin Zhang1 , Xiaodong Chen1 , Min Chen2 , Yubin
Gong1
1
University of Electronic Science and Technology of China (China), 2 Massachusetts Institute of Technology
(USA)
Reversed Cherenkov radiation (RCR) in the left-handed metamaterial (LHM) has been detected at microwave
frequencies for the first time by using a charged particle bunch as an excited source. This experiment has
confirmed that the RCR will bring technology innovations in conventional particle physics, vacuum electronics,
accelerator physics, material science, and optics.
17:00 : High-speed Detection of Microorganisms in Ambient and Aqueous Environments Using Metamaterials
Sae-June Park, Yeong-Hwan Ahn
Ajou University (Korea)
We used terahertz metamaterials for the high-speed detection of microorganisms. Extremely small amounts
of the microorganisms can be detected, because their sizes are on the same scale as the micro-gaps of
the metamaterials. The resonant frequency shift of the metamaterials was investigated in terms of the number density and the dielectric constants of the microorganisms. To optimize the metamaterial sensors, we
controlled the geometrical parameters such as gap width, substrate dielectric constant and target shapes.
17:15 : Dual Band Metamaterial Perfect Absorber with Nearly Polarization-Independent
Osman Bin Ayop1 , M. K. A. Rahim1 , N. A. Murad1 , N. A. Samsuri1 , F. Zubir1 , H. A. Majid2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Tun Hussein Onn Malaysia (Malaysia)
This paper presents the analysis of dual band metamaterial perfect absorber (MPA) with nearly polarizationindependent based on rectangular ring and slotted-cross structure. CST software is used to observe the
MPA. From simulation, the proposed structure achieves almost perfect absorbance, which is 99.31 percent
and 97.37 percent at 8 GHz and 12 GHz respectively for normal incident electromagnetic (EM) wave. For
oblique incident angles, it is observed that the operating angle is 77o for both TE and TM polarizations.
17:30 : Zero index metamaterial for enhanced transmission and beaming
H. Hajian1 , E. Ozbay1 , Humeyra Caglayan2
1
Bilkent University (Turkey), 2 Abdullah Gul University (Turkey)
Using a previously reported near-zero index (NZI) metamaterial, we theoretically investigate light transmission
through a subwavelength metallic aperture. The NZI metamaterial is composed of two double-layer arrays of
dissimilar metasurfaces of subwavelength dimensions which operates at 13-15 GHz. Our theoretical results
show that the presence of the NZI system at the inner side of the aperture enhances the transmission of light
through it.
17:45 : Electromagnetic Mode Profile Shaping in Waveguides
William Taylor Boyd, Jonathan Gratus, Paul Kinsler, Rosa Letizia
Lancaster University (United Kingdom)
Electromagnetic mode profile shaping, would be a very useful technique, with applications including in accelerator science and data transmission. Two methods are proposed, one using a negative permittivity, the
other using a wire medium with periodic variation.
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Wednesday 27th July, 2016
08:00 - 09:20 — Malaga
Session 3A1
Plenary Session III
Chaired by: Nader Engheta
08:00 : Plenary talk
Breaking reciprocity and time-reversal symmetry with metamaterials
Andrea Alu
The University of Texas at Austin (USA)
I will discuss our recent work in the area of non-reciprocal devices, from acoustics to nanophotonics, with
the overall goal of largely breaking Lorentz reciprocity and realize isolation in practical devices without using
magnetic bias. Our approaches are based on using suitably tailored mechanical motion, spatio-temporal
modulation, and large nonlinearities in coupled resonator systems. In the talk, I will discuss the impact of
these concepts from basic science, to integrated technology, and how this platform may be at the basis of
topological insulators for light and sound.
08:40 : Plenary talk
Tunable Nanophotonic Materials and Metasurfaces
Harry Atwater
California Institute of Technology (USA)
Tuning the complex dielectric function of resonant subwavelength antenna arrays is enabling scientific exploration of new materials phenomena such as hybrid plasmon/phonon-polaritons and plasmons in topological
insulators, as well new device applications including electronic phase and amplitude modulators for the near
infrared (conducting oxides) and mid infrared (graphene), as well as resonant thermoelectric detectors. We
discuss several approaches for achieving dynamically gate-tunable metamaterials and metasurfaces, including metasurfaces using conducting oxide thin films as active elements and active, and tunable resonant
absorption and radiative emission from graphene metamaterials.
Coffee Break and Exhibit Inspection
Session 3P1
Poster session V
09:20 - 10:00
P1: The role of spontaneous emission in the plasmon distribute feedback laser
Alexander Andreevich Zyablovsky1 , Igor Alexandrovich Nechepurenko1 , Eugeny Sergeevich Andrianov1 ,
Alexander Victorovich Dorofeenko1 , Alexey Petrovich Vinogradov1 , Alexander Alexandrovich Pukhov1 ,
Alexander Abramovich Lisyansky2
1
All-Russia Research Institute of Automatics (Russia), 2 Queens College of the City University of New York
(USA)
We investigate lasing in the plasmon distributed feedback laser. For this we derive equations of DFB laser
which take into account the process of spontaneous emission in the gain medium and modes competition.
We find dependence number of photons in the laser modes of lasing on the intensity of pumping and on the
gain coefficient. We show that intensity of lasing nonmonotonically depends on gain coefficient of amplifying
medium.
P2: Conformal Tri-Band Textile Antenna with Metasurface for WBAN Applications
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Fatin Nabilah Giman, Ping Jack Soh, Mohd Faizal Jamlos
Universiti Malaysia Perlis (Malaysia)
This paper presents a tri-band textile slotted F antenna with artificial magnetic conductor (AMC) that operates
at 2.45GHz and 5.8GHz for WBAN application and 2.6GHz for LTE application. The diamond-shaped AMC
is proposed as reflector to reduce backward radiation towards the human body. The antenna is designed
using felt as its substrate and ShieldIt as its radiating element. The antenna operates with a good reflection
coefficient, gain and efficiency besides featuring physical characteristics suitable as a wearable antenna.
P3: Effect of the material thicknesses on the transmission spectra of multi-resonant metamaterials
Sabri Kaya, Mustafa Turkmen, Halis Karakaya
Erciyes University (Turkey)
The effects of the material thicknesses on the spectral responses of multi-resonant metamaterials based UTshaped nanoapertures are studied. Transmission spectra of the structure are determined different thicknesses
of materials by using the finite-difference time-domain (FDTD) method. To obtain the refractive index sensing
capability of UT-shaped multi-resonant metamaterials, the sensitivity and spectral tunability characteristics
are investigated by loading different refractive indexed dielectric cladding media.
P4: Optical Focusing via Epsilon-Near-Zero Plasmonic Metalens
Victor Manuel Pacheco Pena1 , Miguel Navarro-Cia2 , Miguel Beruete3
1
Universidad Publica de Navarra (Spain), 2 University of Birmingham (United Kingdom), 3 Public University of
Navarra (Spain)
An ENZ metamaterial is engineered using a parallel plate plasmonic waveguide working near the cut-off of the
transverse electric TE1 mode. The ENZ region can be displaced to different wavelengths when the electrical
width of the sandwiched dielectric is changed. Several converging lenses are designed and compared using
this metamaterial: a smooth concave, zoned and graded refractive index (GRIN) lens.
P5: Textile Antenna Integrated with an AMC Plane for WBAN
Herwansyah Lago1 , Ping Jack Soh1 , Norsuriati Shohaimi1 , Sen Yan2 , Mohd Faizal Jamlos1 , Guy A. E.
Vandenbosch2
1
Universiti Malaysia Perlis (Malaysia), 2 KU Leuven (Belgium)
A novel wearable antenna with artificial magnetic conductor (AMC) fully fabricated using textile for Wireless Body Area Network (WBAN) is presented. The AMC unit element is designed based on a rectangular
patch structure, which is then integrated using slots and slits for bandwidth broadening. Simulated and measured reflection and radiation performance indicate a satisfactory agreement, fulfilling the requirements for
WLAN/WBAN applications both in free space and on body.
P6: Wideband Textile Antenna with AMC Plane
Ezzaty Faridah Nor Mohd Hussin, Ping Jack Soh, Mohd Faizal Jamlos
Universiti Malaysia Perlis (Malaysia)
A wideband textile planar antenna with AMC plane is presented. The antenna design begins with the combination of two rectangular microstrip antennas operating at 1.5 GHz and 2.5 GHz. This radiator is placed
on top of square patches slotted using a circular ring artificial magnetic conductor (AMC). It is designed to
operate at 2 GHz to reduce backward radiation towards the human user. Comparison with an antenna without
AMC indicated a backlobe reduction is reduced and increased directivity.
P7: Dual band Wearable Fluidic Antenna with Metasurface Embedded in a PDMS substrate
Nor Azizan Aziz, Ping Jack Soh, Mohd Faizal Jamlos
University Malaysia Perlis (Malaysia)
In this paper, a flexible fluidic antenna embedded in a polydimethylsiloxane (PDMS) structure with metasurface is presented for dual-band operation. The antenna is design based on the combined operating principles
of dipole and rectangular loop resonant to cover dual band WLAN ISM (2.4GHz and 5.8GHz). An Artificial
Magnetic Conductor (AMC) plane is placed behind the proposed antenna to reduce the backwards scattering
wave towards the human body.
P8: Complex permittivity of Sugarcane Bagasse and Rubber Tire Dust in the range frequency of 1 to
18 GHz
Liyana Zahid1 , Muzammil Jusoh1 , M. R. Kamarudin2 , H. A. Rahim1 , M. K. A. Rahim3 , T. Sabapathy1
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1
Universiti Malaysia Perlis (Malaysia), 2 Universiti Teknologi Malaysia (Malaysia), 3 Universiti Teknologi Malaysia (Malaysia)
This paper presents complex permittivity measurements of sugarcane bagasse and rubber tire dust materials.
These two materials are found to be useful as potential materials to be the absorbing material in microwave
frequency to allow absorption of microwave EMI energy. The materials were combined and fabricated in the
composite structure. A measurement system using open-ended coaxial probe method has been used for
characterizing the dielectric properties of the materials in the 1 to 20 GHz microwave frequency range.
P9: Compact and Broadband Antenna using Double Negative Transmission line Metamaterial
Md. Moinul Islam, Mohammad Rashed Iqbal Faruque, Mohammad Tariqul Islam
Universiti Kebangsaan Malaysia (Malaysia)
A compact antenna is presented using double negative transmission line metamaterial with extended bandwidth. With a view to making antenna compactness and rising the impedance bandwidth, double negative
metamaterial structures have been used broadly. This antenna has been inspired from double negative transmission line metamaterial . The antenna can operate on the frequency range from 2.22-2.82 GHz with 23.81
percent fractional bandwidth. This antenna is appropriate for WLAN and WiMax applications.
P10: High Gain Polydimethylsiloxane-Glass Microsphere (PDMS-GM) Antenna for 5G Applications
Wan Asilah Wan Muhamad1 , Razali Ngah1 , Mohd Faizal Jamlos2 , Ping Jack Soh2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Malaysia Perlis (Malaysia)
A new synthesization meta-material of Polydimethylsiloxane (PDMS) and glass microsphere substrate is presented. The PDMS-glass microsphere (PDMS-GM) offered a lower permittivity of 1.85 than PDMS without
glass microsphere, 2.7 of permittivity. The proposed PDMS-GM antenna contributed a broad bandwidth of
more than 50GHz and boosts the gain up to 13.3dB compared to PDMS without glass microsphere which is
only 5.5dB. Therefore, the PDMS-GM antenna is highly recommended to be deployed for the fifth generation
Wireless Systems.
P11: Perfect Absorbers for Microwave Energy Harvesting
Thamer Almoneef, Omar Ramahi
University of Waterloo (Canada)
We introduce the design of a metamaterial collector inspired by the full absorptionconcept for electromagnetic
energy harvesting. Dierent from previous metamaterial absorberdesigns, here the power absorbed is mostly
dissipated across a resistive load rather than in thedielectric substrate. This is achieved by channeling the
absorbed power to an optimal resistiveload through a via hole.
P12: Pattern Reconfigurable Antenna using Electromagnetic Band Gap Structure
Muhammad Faizal Ismail1 , Mohamad Kamal A. Rahim2 , Huda A. Majid1 , Mohamad Rijal Hamid2
1
Universiti Tun Hussein Onn Malaysia (Malaysia), 2 Universiti Teknologi Malaysia (Malaysia)
A single patch antenna incorporated with an array of electromagnetic band gap (EBG) structures for the
radiation pattern reconfigurability is proposed. The array of EBGs are positioned at both side of the antenna
to produce three different main beam angles of radiation pattern which are -14, 0 and +14 degree.
P13: A Microwave Planar Near-Field Sensor based on Metamaterial Unit Cells for Sensitivity Enhancement
Ali M. Albishi, Mohamed K. El Badawe, Omar M. Ramahi
University of Waterloo (Canada)
This paper presents a microwave planar near field sensor based on multi complementary split ring resonators
CSRRs for sensitivity enhancement.
P14: Positions of Dual-band Textile Diamond Dipole Antenna with Dual-band Textile Artificial Magnetic
Conductor Waveguide Sheet for Body Centric Communication
Muhammad Azfar Bin Abdullah, Mohamad Kamal Bin A. Rahim, Noor Asmawati Samsuri, Huda Bin
Abdul Majid
Universiti Teknologi Malaysia (Malaysia)
A dual-band textile Artificial Magnetic Conductor (AMC) sheet-like waveguide with dual-band textile diamond
dipole antennas were designed to investigate the possibility of enhancing transmission between antennas.
Both structures made of fleece fabric with conductive patches made of SHIELDIT fabric. The effect of diffe137
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rent antennas’ placement was also considered. Results show that the S21 transmission between antennas
improved significantly when having the AMC waveguide sheet beneath them.
P15: Design of Multiple layer microwave absorbing structure based on rice husk and carbon nanotubes
Yeng Seng Lee1 , F. H. Wee1 , F. Malek2 , Y. K. You3 , Z. Liyana1 , H. A. Rahim1 , A. A. M. Ezanuddin1
1
Universiti Malaysia Perlis (Malaysia), 2 University of Wollongong (United Arab Emirates), 3 Universiti Teknologi
Malaysia (Malaysia)
This paper is present a multi-layered microwave absorber using rice husk and carbon nanotube composite.
Dielectric properties of each layer composite are measured and analyzed. The different layer of microwave
absorber enables to control the microwave absorption performance. The microwave absorption performances
are demonstrated through measurements of reflectivity over the frequency range 2-18 GHz.
P16: Agile Radiation Pattern Control of Metamaterial Microstrip antenna
Djalaleddine Bensafieddine, S. Attachi, S. M. Chaker, M. Laamari, M. Bouzouad
Telecommunications, Signals and Systems Laboratory (Algeria)
In this work, we are interested in antenna radiation pattern steering using an agile metamaterial lens.This
agile lens allows controlling a microstrip antenna radiation pattern and enhances its gain.
P17: Improved Single Layer Microwave Absorber Performance of Rice Husk with CNT Composite
Yeng Seng Lee1 , F. H. Wee1 , F. Malek2 , Y. K. You3 , Z. Liyana1 , H. A. Rahim1 , A. A. M. Ezanuddin1
1
Universiti Malaysia Perlis (Malaysia), 2 University of Wollongong (United Arab Emirates), 3 Universiti Teknologi
Malaysia (Malaysia)
This paper presents the enhanced microwave absorption of single layer microwave absorber based on rice
husk (RH) with additional carbon nanotubes (CNTs) filler loading into the composites. The dielectric properties of RH and CNTs composites (RH/CNTs) were measured by using Agilent high temperature probe
and 85070E software. The CST-MWS software is used to design and evaluate the microwave absorption of
RH and RH/CNTs with metal backed plate. The microwave absorption of simulated and measured results is
compared.
P18: Absorption Modulation of FSS-Polynanocomposites Incorporated with Graded Conductive Nanofillers
Jaiswar Rajkumar, Yann Danlee, Henok Mesfin, Arnaud Delcorte, Sophie Hermans, Christian Bailly,
Isabelle Huynen
Universite Catholique de Louvain (Belgium)
We demonstrated the hybrid concept of utilizing Frequency selective surface (FSS) and Polynanocomposite(PNC) for absorption modulation in 8-18GHz band. The PNCs are fabricated incorporating different wt
percent fraction of CNTs and GNPs in high, low and mixed configuration in polycarbonate matrix. The FSS
metallic resonator is patterned over a dielectric substrate which then backed by grounded PNCs loaded with
conductive fillers. The Results are very significant having nearly 100 percent absorption peaks at SRR resonator resonances for varying conductivity of Polynanocomposite.
P19: Multi resonant perfect absorber based on Graphene
Majid Roshanaei, Erfan Dezhband, Hamid Reza Karami
Bu-Ali Sina University (Iran)
In this paper we present a periodic structure with two (type/kind) of Graphene made ribbon for which we have
considered distinct value of chemical potential in a unit cell to achieve two resonance. thus it can be tuned by
changing this value or width of ribbon for different requirements. In the following we present a closed form for
our proposed structure.
P20: Electrical control of circular dichroism and optical activity in graphene chiral metamaterials
Sang Soon Oh1 , Teun-Teun Kim2 , Hyeon-Don Kim3 , H. S. Park3 , Ortwin Hess1 , Bumki Min3 , Shuang
Zhang2
1
Imperial College London (United Kingdom), 2 University of Birmingham (United Kingdom), 3 Korea Advanced
Institute of Science and Technology (Korea)
Based on a chiral metamaterial combined with a gated single layer graphene we experimentally demonstrate
the electrical tuning of the polarization state of terahertz waves. In particular, we show that transmission of a
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terahertz wave with one circular polarization can be electrically controlled without affecting that of the other
circular polarization and the rotation angle of a linearly polarized terahertz wave can be controlled by the gate
voltage.
P21: Branch-Line Coupler Using PDMS and SHIELDIT Super Fabric Conductor
Suleiman Aliyu Babale, Sharul Kamal Abdul Rahim
Universiti Teknologi Malaysia (Malaysia)
In this paper, a new 3 dB branch line coupler using PDMS substrate and Shieldit Super fabric conductive
material is presented. The Shieldit Super fabric has low resistance less than 0.1 /sq. and resulting in good
conductivity. Both the simulated and fabricated coupler demonstrated a 3 +/- 1dB Fractional Bandwidth (FBW)
for the coupling in the range of 4.69GHz to 7.22GHz which stands for 42.2 percent. Within this range, both
the return loss and the isolation are kept below -10dB.
P22: Coherent control of the optical absorption and fluorescence enhancement in a plasmonic lattice
coupled to a luminescent layer
Giuseppe Pirruccio1 , Mohammad Ramezani2 , Said Rahimzadeh-Kalaleh Rodriguez2 , Jaime Gomez
Rivas2
1
Universidad Nacional Autonoma de Mexico (Mexico), 2 FOM Institute AMOLF (Netherland)
We experimentally demonstrate the coherent control, i.e. the phase controlled enhancement and suppression,
of the absorption, optical losses and fluorescence enhancement in an array of plasmonic particles covered
by luminescent layer.
P23: Single metasurface for hybrid functions realization
Dandan Wen1 , Shumei Chen2 , Fuyong Yue1 , Kinlong Chan2 , Ming Chen1 , Marcus Ardron3 , King Fai Li2 ,
Polis Wing HanWong4 , KokWai Cheah2 , Edwin Yue Bun Pun4 , Guixin Li5 , Shuang Zhang5 , Xianzhong
Chen1
1
Heriot Watt University (United Kingdom), 2 Hong Kong Baptist University (Hong Kong), 3 Renishaw PLC (United Kingdom), 4 City University of Hong Kong (Hong Kong), 5 University of Birmingham (United Kingdom)
Traditional polarization-selective optical elements are mainly based on birefringence, which is realized by
using the well-designed structure of each phase pixel. However, further reduction of the pixel size and improvement of the phase levels are hindered by the complicated fabrication process. We present and demonstrate
an approach to realize a metasurface device that possesses two distinct functionalities.
P24: Observation of magneto-optic terahertz effects in a hybrid graphene-embedding metasurface
Simone Zanotto1 , Christoph Lange2 , Thomas Maag2 , Alessandro Pitanti3 , Vaidotas Miseikis4 , Camilla
Coletti4 , Riccardo Degl’Innocenti5 , Lorenzo Baldacci6 , Rupert Huber2 , Alessandro Tredicucci7
1
Consiglio Nazionale delle Ricerche (Italy), 2 University of Regensburg (Germany), 3 NEST (Italy), 4 CNI-NEST
(Italy), 5 University of Cambridge (United Kingdom), 6 Scuola Superiore Sant’Anna (Italy), 7 Universita di Pisa
(Italy)
When a material is placed in close vicinity of a resonant optical element, its intrinsic optical response can be
tuned. We will show that a graphene monolayer nanometrically spaced from a split ring resonator metasurface
exhibits a magneto-optical response which is influenced by the metasurface properties. This system can be
employed as a tunable flat optical element working in the terahertz spectral range, and deserves promising
potentials for investigating the cavity electrodynamics of graphene.
P25: Full cloaks based on metasurfaces
HongChen Chu, Jie Luo, Yun Lai
Soochow University (China)
We propose two full cloaking schemes by using an ultra-thin cloaking shell consisting of metasurfaces and
other thin optical device. The metasurface is designed to manipulate the incident waves and radiation waves,
so as to avoid the total reflection and to restore the propagating wave front. Full-wave simulation shows good
cloaking effects for cloaks of almost arbitrary shapes. Our design provides a feasible approach for the cloaking
of large areas with ultra-thin shells.
P26: Angle-resolved far-field scattering/extinction characteristics of single Ag nanowire
Jinhyung Kim1 , Ho-Seok Ee1 , Min-Soo Hwang2 , Kwang-Yong Jeong2 , Juhyung Kang2 , Hong-Gyu Park2 ,
Min-Kyo Seo1
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Korea Advanced Institute of Science and Techonology (Korea), 2 Korea University (Korea)
We directly measured far-field extinction/scattering spectra of a single Ag nanowire over the entire semimeridian with varying detection angle. The angle-resolved extinction/scattering spectra reveal that the far-field
pattern of the nanowire carries two features of the near-field: Fabry-Perot resonances of SPPs propagating
along the nanowire and phase-matching conditions between SPPs and free-propagating radiation depending
on the emission angle and wavelength.
P27: Asymmetric Transmission with Chiral Photonic Crystals
Nikhil Parappurath, Filippo Alpeggiani, Kobus Kuipers, Ewold Verhagen
FOM Institute AMOLF (The Netherlands)
Specifically tailored nanostructures that strongly affect the direction and polarization of light can enable extremely small optical devices. We investigate the magnitude and origin of asymmetric transmission (AT) in
chiral photonic crystals. We show how AT is governed by the resonantly guided eigenmodes of the structure.
Coupled mode theory predicts the AT spectra from eigenmode properties. We derive the maximum AT offered by any chiral nanostructure and verify the theory with finite-element simulations for a bilayer dielectric
photonic crystal.
P28: Chiral Metamaterial Structure With High Optical Activity Based On Conjugated Omega Particles
Oscar Fernandez1 , Alvaro Gomez1 , Angel J. Garcia-Collado2 , Gregorio J. Molina-Cuberos3 , Angel
Vegas1
1
University of Cantabria (Spain), 2 Universidad Catolica San Antonio (Spain), 3 Universidad de Murcia (Spain)
In this communication the authors present a novel chiral metamaterial structure formed by planar omega
particles These omega particles, arranged in conjugated pairs, present high optical activity. Thanks to the
high values of chirality, the structure provides negative refractive index with high figure of merit.
P29: Low SAR Metamaterial inspired Printed Monopole Antenna
Md Ikbal Hossain, M. R. I. Faruque, M. T. Islam
Universiti Kebangsaan Malaysia (Malaysia)
In this paper, a low SAR metamaterial inspired planar monopole antenna is introduced for wireless communication system. The designed antenna operates in GSM, UMTS, LTE, WLAN, and Bluetooth frequency bands.
The results indicate that the proposed metamaterial structure leads to reduce SAR without affecting antenna
performance significantly. According to the measured results, the metamaterial attachment leads to reduce
87.7percent Peak SAR, 68.2percent 1 g SAR, and 46.78percent 10 g SAR compared to antenna without
metamaterial.
P30: Printed Monopole Single Notch UWB Antenna using Low loss Glass-Polytetrafluoroethylene
Composite Material
M. Z. Mahmud1 , M. T. Islam1 , M. Samsuzzaman2
1
Universiti Kebangsaan Malaysia (Malaysia), 2 Patuakhali Science and Technology University (Malaysia)
A low loss and compact printed planer monopole UWB antenna with single band notch characteristics is
proposed. The antenna has an overall dimension of 52.25 mm Œ42 mm and is fabricated on 1.575 mm thick
low dielectric substrate of high frequency copper laminated glass microfiber reinforced composite substrate.
Its consistent radiation patterns with adequate radiation effeciency, makes appropriate for providing services
in L band, ISM, Wi-Fi, LTE 2600, Bluetooth and different UWB applications.
P31: Bandwidth Enhancement using Polymeric PDMS-Grid Array Antenna
Wan Asilah Wan Muhamad1 , Razali Ngah1 , Mohd Faizal Jamlos2 , Ping Jack Soh2
1
Universiti Teknologi Malaysia (Malaysia), 2 Universiti Malaysia Perlis (Malaysia)
A new Polymeric PDMS-Grid Array Antenna (P-PGAA) is presented. The PDMS substrate increases the
antenna bandwidth and resulted in a low reflection coefficient. The antenna is 36x35 mm2 in size and is
fed using a co-planar waveguide (CPW) structure. Simulated and measured radiation patterns agreed well ,
while its impedance bandwidth is increased by 72.1 percent compared to conventional antenna. Moreover, its
efficiency is increased up to 70 percent and is suitable for milimeter-wave application.
P32: Bandwidth Enhancement of Multilayer Polymeric Comb Array Antenna for Millimeter Wave Applications
Wan Asilah Wan Muhamad1 , Razali Ngah1 , Mohd Faizal Jamlos2 , Ping Jack Soh2
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Universiti Teknologi Malaysia (Malaysia), 2 Universiti Malaysia Perlis (Malaysia)
A new multilayer polymeric comb array antenna is presented. The multilayer substrates of Polydimethylsiloxane (PDMS) and Rogers produced an increment bandwidth of 5.118 GHz compared to 0.608 GHz, which is
non-polymeric antenna. Multilayer substrate, comb array structure and PDMS’s epsilon of 2.7 contributing to
such bandwidth ranging from 22.649 until 27.792 GHz and gain of 9.856 dB at 25 GHz resonance. Moreover,
dimension of 33x27 mm2 is considered compact in size.
P33: Voltage Controlled Unidirectional Propagation of Microwaves in Metastructures Ferrite/VaractorLoaded Conductive Elements
Valery Butylkin, Yury Kazantsev, Galina Kraftmakher, Valery Mal’tsev
Kotelnikov Institute of Radioengineering and Electronics RAS (Russia)
Voltage controlled nonreciprocal effects have been observed at microwaves with metastructures ferrite plate/array of magnetically excited varactor-loaded double split rings (DSR) and twice split rings (TSR) placed
along rectangular waveguide axis. It has been also used varactor-loaded single dipole in the form of butterfly
as well twice split ring as twin half-wave dipoles. Possibility of application for fast controlled nonreciprocal
devices are discussed.
P34: Response of ZnAl2O4 Ceramics to Ultra Wideband Antenna
Ashiqur Rahman, Mohammad Tariqul Islam, Mandeep Jit Singh
Universiti Kebangsaan Malaysia (Malaysia)
In this paper, we study the response of Zinc aluminate ceramics to an ultra-wideband antenna prepared by the
sol-gel technique. The XRD pattern and FTIR reveals the characteristic peaks of ZnAl2O4 with the standard
pattern of face centered cubic (fcc) structure and the formation of metal oxide. A dielectric constant of 8.50
and loss tangent of 0.05 are obtained for ZnAl2O4 ceramics. The measurement results show a remarkable
achievement of 127percent bandwidth with a bandwidth ratio of 4.5: 1.
P35: A Wideband Corner-Notched Artificial Magnetic Conductor (AMC) Integrated With a Rectangular
Ring Antenna
N. F. M. Aun, P. J. Soh, H. Lago, A. A. Al-Hadi, M. F. Jamlos
Universiti Malaysia Perlis (Malaysia)
This paper presents the design of a single band Artificial Magnetic Conductor (AMC) for in-phase reflection
operation at 8 GHz with 2 GHz of AMC impedance bandwidth. This is to suit the Wireless Body Area Network
(WBAN) Ultra Wideband (UWB) mandatory channel 6. The proposed AMC is subsequently incorporated on a
rectangular-ring patch antenna to determine the contribution of the AMC in improving the antenna reflection
coefficient and impedance bandwidth.
P36: EBG-based transmission lines with slow-wave characteristics and application to miniaturization
of microwave components
Jordi Selga, Paris Velez, Jordi Bonache, Ferran Martin
Universitat Autonoma de Barcelona (Spain)
In this paper, artificial transmission lines implemented by means of electromagnetic bandgaps and consisting
of a host line periodically loaded with reactive elements (either capacitances or inductances) are presented.
The considered implementations are restricted to microstrip lines either loaded with patch capacitors or with
inductive slots (etched in the ground plane). It is demonstrated that these structures are useful for device
miniaturization due to the slow-wave effect associated to the presence of the reactive elements.
P37: EM absorption reduction of wireless mobile antenna using printed paper based metamaterial
Touhidul Alam, Mohammad Tariqul Islam, Salehin Kibria, Mohammad Rashed Iqbal Faruque
Universiti Kebangsaan Malaysia (Malaysia)
This paper presents a negative index metamaterial printed for electromagnetic (EM) absorption reduction
of portable wireless antenna. The perceptible novelty exhibited in this paper is that EM absorption reduction
towards the human head with paper based metamaterial attachment. This research has been performed using
human head phantom integrated in the commercially available CST Microwave Studio software package. The
EM absorption has been reduced by13.2percent and 6percent at 900MHz and 1800MHz, respectively.
P38: Magnonic-crystal-based magnon transistor
Alexander A. Serga, Andrii V. Chumak, Burkard Hillebrands
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Technische Universitaet Kaiserslautern (Germany)
Using a magnonic crystal-an artificial magnetic media with a periodic variation of its magnetic properties in
space-to enhance nonlinear magnon-magnon interactions, we have succeeded in the realization of magnonby-magnon control, and the development of a magnon transistor. We demonstrate that the density of magnons
flowing from the transistors source to its drain can be decreased three orders of magnitude by the injection of
magnons into the transistors gate.
P39: Active dispersion compensation for metamateirals and devices based on the wideband frequency response of non-Foster elements
Anjie Zhu1 , Chun Wang1 , Shan Qiao2 , Yongzhi Sun2 , Dexin Ye1 , Lixin Ran1
1
Zhejiang University (China), 2 Nanjing Institute of Electronic Equipement (China)
We experimentally investigated the full-range frequency response of non-Foster elements (NE). Our results
indicate that the de-embedded impedance of NEs co-existing with properly designed stabilization networks
has inverted Lorentzian resonance that satisfies the Kramers-Kronig relations. While the left-side non-Foster
response is intrinsically accompanied by a negative, frequency dependent resistance, there also exists a
non-Foster response on the right side of the resonance. This helps to achieve high-frequency non-Foster
responses and wideband compensation for frequency dispersions of metamaterials and devices.
P40: Metasurface for Low Profile X-Band Antenna Application Based on High Permeability and Low
Permittivity
H. Lago, M. F. Jamlos, P. J. Soh
Universiti Malaysia Perlis (Malaysia)
A comparison of a novel design with three basic shape designs of artificial magnetic conductor (AMC) is
presented. The proposed AMC design successfully enhanced the operating bandwidth about 12.02percent
compared to the others designs while maintaining the resonant frequency at 9.41 GHz. In addition, it is
observed that the proposed AMC unit cell is capable to have higher permeability of 6.26 and lower permittivity
of 1.06 at resonant frequency.
P41: Tuning of the lattice mode in 2D array of split-ring resonators
Dalius Seliuta1 , Gediminas Slekas2 , Rimas Simniskis2 , Ignas Grigelionis2 , Andrius Vaitkunas2 , Zilvinas Kancleris2
1
Vilnius Gediminas Technical university (Lithuania), 2 Center for Physical Sciences and Technology (Lithuania)
Using continuous wave terahertz spectroscopy and numerical simulations we investigate fundamental eigenmodes and higher-order resonances in planar arrays of split-ring resonators (SRRs). Special attention is paid
to the interaction between SRRs in metamaterial arrays and properties of diffraction (lattice) mode in periodic
arrays of SRRs. We observe tuning of resonant frequency of high-Q factor and high-frequency lattice mode by variation of parameters of individual resonators which may be advantageous for fabrication of tunable
metamaterial filters and modulators.
P42: High-efficiency Ultra-Broadband Supercontinuum High-Harmonic Generation from a Single Nonlinear Crystal
Chen-Yang Hu1 , Bao-Qin Chen2 , Jiafang Li1 , Zhi-Yuan Li1
1
Chinese Academy of Sciences (China), 2 South China University of Technology (China)
We report the generation of an ultrabroadband visible white light beam corresponding to 5th-8th HG with
a record high conversion efficiency of 18percent, by using a single chirped periodic poled lithium niobate
(CPPLN) nonlinear crystal.
P43: Optical characterization of U-shaped resonators : from array to single scattererTransmission
measurements have been performed on arrays and single U-shaped resonators. We show that optical
activity can be evidenced in arrays of resonators and that this activity, associated with the magnetic
modes, is already present in single resonators.
Julien Proust1 , Johan Grand2 , Geraldine Guida3 , Nicolas Bonod1 , Bruno Gallas4
1
Aix-Marseille University (France), 2 University Paris Diderot (France), 3 University Paris Ouest (France), 4 UPMC
(France)
Transmission measurements have been performed on arrays and single U-shaped resonators. We show that
optical activity can be evidenced in arrays of resonators and that this activity, associated with the magnetic
modes, is already present in single resonators.
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P44: Quantitative characterization of a plasmonic zone plate using coherence-controlled holographic
microscopy
Jiri Babocky, Filip Ligmajer, Radek Kalousek, Aneta Krizova, Lukas Kejik, Martin Hrton, Petr Dvorak,
Vlastimil Krapek, Matej Tyc, Radim Chmelik, Tomas Sikola
Brno University of Technology (Czech Republic)
Here we present application of holographic quantitative phase imaging for plasmonic metamaterial analysis.
As a demonstration we show the possibility to measure phase spectra from arrays of plasmonic antennas and
quantitative phase imaging of a plasmonic zone plate.
P45: Evaluation of Broadband Textile Monopole Antenna Performance for Subject-Specific On-body
Applications
Hasliza A Rahim1 , MohamedFareq AbdulMalek2 , Ping Jack Soh1 , Guy A. E. Vandenbosch3
1
Universiti Malaysia Perlis (Malaysia), 2 University of Wollongong in Dubai (UAE), 3 Katholieke Universiteit
Leuven (Belgium)
Human body characteristics with different dimensions and tissue properties, is one of the major factors in
influencing the on-body radio propagation channel characteristics. A broadband textile monopole antenna
operating at 2.45 GHz is evaluated to validate its performance on different subjects’ characteristics.
P46: Parametric instability of non-Hermitian systems near the exceptional point
Alexander Andreevich Zyablovsky, Eugeny Sergeevich Andrianov, Alexander Alexandrovich Pukhov
All-Russia Research Institute of Automatics (Russia)
In contrast to Hermitian systems, modes of non-Hermitian ones are nonorthogonal. As a result, system energy
depends not only on mode amplitudes but also on phase shift between them. In this work we show that it is
possible to increase amplitudes of the modes without increasing of system energy. Moreover, we demonstrate
that when system is in exceptional point any infinitesimally small changing of the system parameters leads to
increasing of mode amplitudes.
P47: Propagation of nolinear surface waves through metamaterial waveguide structure
B. Mokhtari1 , N. Hissi1 , M. M. Shabat2 , N. Cherkaoui Eddeqaqi1 , S. Bahsine1 , J. Atangana3
1
Moulay Ismail University (Morocco), 2 Islamic University (Palestine), 3 University of Yaounde I (Cameroon)
We present an investigation of nonlinear electromagnetic surface waves propagating in a new ferrite slab
made of a metamaterial, where the permittivity is selected in the form of the commonly used function for plasmon investigations, the metamaterial film is surrounded by a nonlinear cover cladding and a ferrite substrate,
we calculate the associated propagation index and the film-cover interface nonlinearity. Results show that
the propagating characteristics in the above three layers can be tuned and controlled by selecting the film
thickness and the film-cover interface nonlinearity.
P48: Site-controlled quantum dots coupled to photonic crystal waveguides
Bruno Rigal1 , Jakob Rosenkrantz de Lasson2 , Clement Jarlov1 , Benjamin Dwir1 , Alok Rudra1 , Alexey
Lyasota1 , Irina Kulkova1 , Niels Gregersen2 , Jesper Mork2 , Elyahou Kapon1
1
EPFL (Switzerland), 2 Technical University of Denmark (Denmark)
We demonstrate selective optical coupling of multiple, site controlled semiconductor quantum dots (QDs) to
photonic crystal waveguide structures. The impact of the exact position and emission spectrum of the QDs on
the coupling efficiency is elucidated. The influence of optical disorder and end-reflections on photon transport
in these systems are discussed.
P49: Optical nanoantenna excitation through the dissipative instability of DC current in a quantum
well near a metal surface
Igor Valentinovich Smetanin1 , Alexander Bouhelier2 , Igor Protsenko1 , Alexander Uskov1
1
Russian Academy of Sciences (Russia), 2 Universite Bourgogne Franche-Comte (France)
We propose a novel physical mechanism for the excitation of optical nanoantenna which utilizes the dissipative
instability of DC electric current in the quantum well. Realization of this approach in nanoplasmonics can lead
to a new device - nanoresotron.
P50: Quenching, Plasmonic, and Radiative Decays in Nanogap-based Antennas
Remi Faggiani, Philippe Lalanne
University of Bordeaux (France)
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We show that nanogap-based antennas can provide large emission rate enhancement and good extraction
efficiency despite the close proximity between quantum emitters and metallic objects. We argue thanks to accurate closed-form expressions that quenching can be overcome by the strong decay into slow gap-plasmons
modes supported by nanogaps. To illustrate these predictions, we provide a numerical analysis of nanocubetype antennas and propose a classification of nanoantennas based on two figures of merit, the emission rate
and the extraction efficiency.
10:00 - 11:20 — Malaga
Session 3A2
Symposium: Hybrid Plasmonics and Functional Nanomaterials
Organized by: Jerome Plain, Xing Yi Ling and Alexander Govorov
Chaired by: Jerome Plain, Xing Yi Ling and Alexander Govorov
10:00 : Invited talk
On the use of hybrid modal properties to design enhanced nonlinear and ultrafast optical properties
Cillian McPollin1 , Silvia Peruch1 , David J. Gosztola2 , Gary P. Wiederrecht2 , Gregory Wurtz3 , Anatoly V
Zayats1
1
King’s College London (United Kingdom), 2 Argonne National Laboratory (USA), 3 University of North Florida
(USA)
In this presentation we present some of the unique opportunities hybrid plasmonic systems offer in the design
of active plasmonic metamaterials and devices. In particular, we show that an active control over the modal
coherence within hybrid system leads to enhanced nonlinear optical properties being triggered at ultrafast
timescales.
10:20 : Invited talk
Scalable Fabrication of 2 nm-Wide Plasmonic Nanotrench Arrays For Strong Field Enhancements
Joel K. W. Yang
Singapore University of Technology and Design (Singapore)
Plasmonic field enhancements intensifies with decreasing gaps between metallic nanostructures. However,
the scalable fabrication of nanogaps in the 10-nm scale remains challenging. We present a process to scaleup the fabrication of nanotrench arrays in Au. Combining top-down and bottom-up techniques, double-gap
structures were patterned, with gaps measuring =2 nm. These structures exhibit ultrasmooth surfaces, as
achieved with template stripping with reusable templates. The double-gap structure increases the surface
area where light is localized thus enabling enhanced second-harmonic generation (SHG).
10:40 : Invited talk
Significant enhancement of the chiral correlation length in nematic liquid crystals by gold nanoparticles capped with axially chiral binaphthyl ligands
Torsten Mori, A. Sharma, T. Hegmann
Kent State University (USA)
To investigate how chirality propagates from a chiral nanoscale surface, we studied gold nanoparticles functionalized with axially chiral binaphthyl molecules. In particular, we synthesized three enantiomeric pairs of
chiral ligand-capped gold nanoparticles differing in size, curvature, and ligand density that allowed us to tune
the chirality transfer from nanoscale solid surfaces to a bulk anisotropic liquid crystal (nematic) medium. Ultimately we are examining how far the chirality from a nanoparticle surface reaches into a soft, self-assembled
bulk material.
11:00 : Invited talk
Biocompatible Liquid Crystal Elastomers with Unique Properties for Cell Scaffolds
Taizo Mori1 , Anshul Sharma1 , Yunxiang Gao1 , Robert Clements1 , Ernest Freeman1 , Christopher Malcuit1 ,
Jennifer McDonough1 , LaShanda Worley2 , Torsten Hegmann1 , Elda Hegmann1
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Wednesday 27th July, 2016
Kent State University (USA), 2 Case Western Reserve University (USA)
LCEs responsiveness to external stimuli makes them excellent candidates for the replacement of human
tissue cellular delivery, among other applications. We have already prepared series of smectic and nematic
LCEs, which have proven to be non-cytotoxic to soft tissue cell lines. We will present new and interesting optical and mechanical properties obtained by slight modifications on the choice of monomers and crosslinking
moieties.
11:20 - 12:20 — Malaga
Session 3A3
SP21. Plasmonics and propagation of electromagnetic radiations in
low-dimensional materials
Organized by: Mohamed Boutchich and Bruno Gallas
Chaired by: Mohamed Boutchich and Bruno Gallas
11:20 : Invited talk
Enhanced Sensing and PT-Symmetry in Photoexcited Graphene Nanostructures
Pai-Yen Chen
Wayne State University (USA)
We present here the parity-time (PT) symmetric Terahertz (THz) system based on an optically-pumped, active
graphene metasurface. We theoretically demonstrate that the combination of the spectral singularity in a PTsymmetric system and the chemical sensitivity of graphene may give rise to exotic scattering responses,
strongly influenced by the presence of charged impurities in graphene at the spontaneous PT symmetrybreaking point.
11:40 : Invited talk
Terahertz Photogalvanics and Opto-Electronic Characterization of Topological Insulators
Sergey Ganichev
University of Regensburg (Germany)
The paper overviews experimental and theoretical studies of photocurrents excited by polarized terahertz
radiation in (Bi1-xSbx)2Te3 and HgTe based 3D and 2D topological insulators.
12:00 : Invited talk
Surface Electromagnetic Waves on Metamaterial Absorbers
Willie Padilla, Andrew Cardin
Duke University (USA)
In metamaterial absorbers, absorption for transverse electric polarization falls off much more rapidly than
transverse magnetic for increasing angle of incidence. In the present work we demonstrate through computational study that the broad-angle TM behavior cannot be associated with periodicity, instead it is the result
of coupling with a surface electromagnetic. Previous experimental results are consistent our computational
study and we highlight the potential augment absorber response by tailoring the surface wave.
10:00 - 12:20 — Ronda
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Session 3A4
SP31. Plasmonic Nanocircuits: Fundamentals and Devices
Organized by: Hong Wei
Chaired by: Ann Roberts and Jinghua Teng
10:00 : Keynote talk
Real-time Tunable Nanoparticle Lasing Spasers
Teri W. Odom
Northwestern University (USA)
This talk will discuss cavity architectures based on nanoparticle arrays that can achieve tunable lasing at room
temperature. We will also describe competing and unique loss mechanisms in nanoparticle cavity arrays and
design principles for an optimized lasing devices by comparing different plasmonic materials, unit cell shapes,
and gain materials.
10:30 : Invited talk
Multimodal plasmonics devices in crystalline colloidal systems
Sviatlana Viarbitskaya1 , Alexandre Teulle2 , Upkar Kumar2 , Jadab Sharma2 , Kargal Gurunatha2 , Aurelien Cuche2 , Michel Bosman3 , Alexandre Bouhelier1 , Gerard Colas des Francs1 , Arnaud Arbouet2 ,
Christian Girard2 , Erik Dujardin2
1
LICB - CNRS (France), 2 CEMES CNRS (France), 3 A*STAR (Singapore)
Two-dimensional crystalline Au colloidal structures with mesoscale lateral dimensions act as cavities that
sustain higher order plasmon modes with well-defined spatial and spectral characteristics. This multimodal
optical behavior can be directly evidenced and explained but also tailored both spatially and spectrally. This
intermediate regime that combines propagative and local modes is exploited for a new implementation of
information processing devices, including complex Boolean logic gates.
10:50 : Invited talk
Revealing Optical Properties of Two-Dimensional Semiconductors at Relevant Length Scales
P. James Schuck
Lawrence Bekeley National Lab (USA)
Reduced-dimensionality materials for photonic and optoelectronic applications including energy conversion,
solid-state lighting, sensing, and information technology are undergoing rapid development. The search for
novel materials based on reduced-dimensionality is driven by new physics. Understanding and optimizing material properties requires characterization at the relevant length scale, which is often below the diffraction limit.
I will describe recent near-field advances that lay groundwork for generally-applicable nano-optical studies of
these low-D materials, and will show recent results on 2D semiconductors.
11:10 : Invited talk
Nanometric imaging of the few-cycle plasmonic near-field within single nanoobjects
Arthur Losquin1 , Erik Marsell1 , Eleonora Lorek1 , Robin Svard1 , Chen Guo1 , Anne Harth1 , Miguel
Miranda1 , Cord Arnold1 , Hongxin Xu2 , Anne L’Huillier1 , Johan Mauritsson1 , Anders Mikkelsen1
1
Lund University (Sweden), 2 Wuhan University (China)
We combined PhotoEmission Electron Microscopy with a few-femtosecond laser system to image the fewcycle plasmonic near-fields within single nanoobjects.
11:30 : Invited talk
Room temperature lasers at subwavelength scale by top-down fabrication
Ning Liu1 , Brian Corbett2
1
University of Limerick (Ireland), 2 Tyndall National Institute (Ireland)
Lasing at deep subwavelength scale have been realized through hybrid plasmonic modes, a special optical
mode at the semiconductor-insulator-metal interface,. However, most of the lasing cavities reported so far
are fabricated using bottom-up approaches, which limits the scalability and reproducibility of the plasmonic
devices. In this talk, I will present the recent progresses made in our group on utilizing bottom-up approach
to fabricate various subwavelength laser cavities that are suitable for large scale production.
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11:50 : Mechanisms of plasmon-mediated light emission in biased nanoscale constrictions
A. V. Uskov1 , I. V. Smetanin1 , I. E. Protsenko1 , J. B. Khurgin2 , M. Buret3 , A. Bouhelier3
1
P. N. Lebedev Physical Institute (Russia), 2 John Hopkins University (USA), 3 University Bourgogne FrancheComte (France)
We investigate spontaneous light emission by electrons passing through a nanoscale metal constriction. We
find that the emission is caused by two distinct mechanisms. The first mechanism is driven by electron colliding with the effective potential of the contact. The second emission process involves collisions of electrons
with the walls of the constriction. We find that multiple collisions with the walls can lead to the orders-ofmagnitude higher light emission probability in comparison to single collision with the effective potential.
12:05 : Strong Plasmon-Emitter Coupling: Beyond the Jaynes-Cummings Model
Benjamin Lawrie, Roderick B. Davidson II, Pavel Lougovski
Oak Ridge National Laboratory (USA)
Abstract-Strong plasmon-emitter coupling has received growing attention over the past decade because of
the potential of engineering a plasmonic analogue to cavity quantum electrodynamics (cQED) that exploits
mode volumes well below the diffraction limit. However, the demonstration of a true plasmonic cQED platform
remains elusive. Here, we will compare current descriptions of strongly coupled systems with experimentally
recorded femtosecond plasmon dynamics in order to move towards an accessible platform for high efficiency
nonlinear optics at the single photon scale.
10:00 - 12:55 — Antequera
Session 3A5
SP22. Microcavity Polaritons: fundamental physics and devices
Organized by: Alberto Bramati
Chaired by: Luis Vina
10:00 : Invited talk
Advances on strongly correlated photonic systems
Cristiano Ciuti
Universite Paris Diderot (France)
In this invited talk, I will present recent advances on the theory of strongly correlated photonic (polaritonic)
systems. Applications and perspectives will be discussed.
10:20 : Invited talk
Spin-orbit coupling in photonic systems: from Optical Spin Hall Effect to Z topological insulator
Guillaume Malpuech
University Blaise Pascal (France)
The optical modes of photonic structures are the so-called TE and TM modes which bring intrinsic spin-orbit
coupling and chirality to these systems. This, combined with the unique flexibility of design of the photonic
potential, and the mixing with excitonic resonances, allows to achieve many phenomena, often analogous to
other solid state systems. In this contribution, I will review several of these realizations, namely the optical
spin Hall effect, Berry curvature for photons, and the photonic/polaritonic topological insulator.
10:40 : Invited talk
Fractal and topological properties of Fibonacci quasi-crystals for polaritons
Florent Baboux1 , D. Tanese1 , T. Jacqmin1 , A. Lemaitre1 , E. Galopin1 , I. Sagnes1 , A. Amo1 , J. Bloch1 ,
E. Levy2 , E. Gurevich2 , E. Akkermans2
1
Universite Paris-Saclay (France), 2 Technion (Israel)
Waves propagating in a spatially varying potential present modifications of their spectral properties, which
depend on the symmetry of this potential. Of particular interest is the case of a quasi-periodic potential.
Fibonacci quasi-crystals are predicted to sustain a fractal energy spectrum, having a profound impact on many
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physical properties. Such quasi-crystals are also expected to manifest topological properties characterized
by Chern numbers. I will show that cavity polaritons provide an excellent platform to probe these fractal and
topological features.
11:00 : Invited talk
Quantum Simulations with Polariton Graphs
Pavlos Lagoudakis
University of Southampton (United Kingdom)
Finding the ground state of physical systems is the natural quantum analogue of classical constraint satisfaction problems that are mapped into various optimization problems in technology and life sciences. Most of
these problems belong to the non-deterministic polynomial time (NP)-complete or NP-hard complexity classes
and cannot be solved efficiently using classical digital computers.
11:20 : Invited talk
Transport properties of electromagnetically dressed graphene
Ivan A. Shelykh1 , Skender Morina2 , Kristinn Kristinsson2 , Kevin Dini1 , Oleg Kibis1
1
University of Iceland (Iceland), 2 Nanyang Technological University (Singapour)
We demonstrated theoretically that high-frequency electromagnetic field leads to renormalization of the spectrum of graphene near Dirac point. As a consequence, the stationary dc electronic transport and magnetoelectronic properties are strongly renormalized and become polarization dependent.
11:40 : Invited talk
Exploring the potential of microcavity polariton physics for photonic devices
O. Lafont1 , P. Lewandowski2 , M. H. Luk3 , N. H. Kwong3 , K. P. Chan4 , P. T. Leung4 , E. Galopin5 , A.
Lemaitre5 , P. Roussignol1 , S. Schumacher6 , R. Binder3 , J. Tignon1 , Emmanuel Baudin1
1
Ecole Normale Superieure (France), 2 Center for Optolelectronics and Photonics Paderborn (Germany),
3
University of Arizona (USA), 4 The Chinese University of Hong Kong (China), 5 Laboratoire de Photonique
et de Nanostructures (France), 6 Center for Optolelectronics and Photonics (Germany)
Key advantages and figures of merits of microcavity polaritons for photonic applications will be reviewed and
as an illustration, two recent experiments will be detailed: a polaritonic lighthouse and a THz-detector.
12:00 : Invited talk
Exciting polaritons with quantum light
Juan Camilo Lopez Carreno, Carlos Sanchez Munoz, Elena del Valle, Fabrice P. Laussy
Universidad Autonoma de Madrid (Spain)
The excitation of polaritons is usually done by classical light (e.g., a laser). Here, we study their excitation by
quantum light instead. We focus on a particular application of great interest in this field: the direct and accurate
measurement of polariton-polariton interactions. The relevance of such an approach beyond polaritons is also
addressed.
12:20 : Invited talk
Quantum Statistics of Bosonic Cascades
Timothy C. H. Liew1 , Y. G. Rubo2 , A. S. Sheremet3 , S. De Liberato4 , I. A. Shelykh1 , F. P. Laussy5 , A. V.
Kavokin5
1
Nanyang Technological University (Singapore), 2 Universidad Nacional Autonoma de Mexico (Mexico), 3 ITMO
University (Russia), 4 University of Southampton (United Kingdom), 5 Russian Quantum Center (Russia)
Bosonic cascades formed by lattices of equidistant energy levels sustaining radiative transitions between nearest layers represent a unique system to study correlated optical phenomena. We show how the light emitted
by condensates in the visible range introduces a new regime of emission for cascade systems. Namely, the
quantum statistics of bosonic cascades exhibits superbunching plateaus.
12:40 : Quantum Spin Hall phase and topologically protected edge states in the polariton rings lattices
Mehedi Hasan, Ivan Iorsh, Ivan Shelykh
National Research University of Information Technologies, Mechanics and Optics (Russia)
We study the dispersion and topological properties of the two-dimensional arrays of the coupled polaritonic
rings in the presence of the external magnetic field. We show that these structures can be characterized by
the nontrivial Chern numbersand demonstrate the emergence of the topologically protected chiral edge states
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at the interfaces of these structures.
10:00 - 12:40 — Fuengirola
Session 3A6
SP34. Fano resonances in optics and microwaves: Physics and application
Organized by: Eugene Kamenetskii
Chaired by: Eugene Kamenetskii
10:00 : Invited talk
Broken Symmetry Dielectric Resonators for Scalable, High Quality-Factor Fano Metasurfaces
Michael B. Sinclair, Salvatore Campione, Sheng Liu, Lorena Basilio, Larry Warne, William Langston,
Ting Luk, Joel Wendt, John Reno, Gordon Keeler, Igal Brener
Sandia National Laboratories (USA)
We present a new, all-dielectric metasurface design that yields very high quality-factor Fano resonances, and
is scalable from radio frequencies to near infrared wavelengths. In contrast to other recently demonstrated
designs, our approach features a single resonator in the unit cell. We will present the theoretical underpinnings
of the new design and present several experimental demonstrations of near-infrared Fano metasurfaces,
including a gallium-arsenide based design that achieves a quality-factor of 600 at a wavelength of 1 micron.
10:20 : Invited talk
Ultra-High Q Fano Resonances and its Figure of Merit in metasurfaces
Manukumara Manjappa1 , Longqing Cong1 , Yogesh Kumar Srivastava1 , Ningning Xu2 , Ibraheem AlNaib3 , Weili Zhang2 , Ranjan Singh1
1
Nanyang Technological University (Singapore), 2 Oklahoma State University (USA), 3 University of Dammam
(Saudi Arabia)
Fano resonances in metasurfaces offer exciting features like high quality (Q) factors and strong field enhancement that are exploited in the resonant ultrasensitive sensors and for enhancing the gain in spasers. Here,
we present our findings on high Q-Fano resonances using the metamaterials at terahertz frequencies and
our recent investigation on the strong influence of material conductivity on the ultra high Q Fano resonances.
We further discuss the optimization of the Figure of Merit of Fano resonances in metamaterials.
10:40 : Invited talk
Excitation of non-radiating anapole mode with focused radially polarized beams
Lei Wei, Zheng Xi, Nandini Bhattacharya, H. Paul Urbach
Delft University of Technology (The Netherlands)
A method to excite the non-radiating anapole mode of a high index isotropic dielectric nanosphere is presented. With tightly focused radially polarized beam illumination, the main-contributing electric dipole mode and
magnetic modes can be zero with only a weak electric quadruple contributing to the total scattering. Further,
with a standing wave illumination formed by two counter-propagating focused radially polarized beam under
4 PI configuration, the ideal radiationless anapole can be excited.
11:00 : Invited talk
Explicit demonstration of how path interference can enhance plasmonic nonlinearity
Mehmet Emre Tasgin
Hacettepe University (Turkey)
We demonstrate why nonlinear frequency generation, e.g. second harmonic generation and four-wave mixing,
can be enhanced via interference of conversion paths. We derive a single equation for the amplitude of the
generated nonlinear oscillations. On this equation we show that cancellation in the denominator gives rise to
conversion enhancement. We utilize this phenomenon to obtain further enhancement using interference of
the multiple conversion paths.
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11:20 : Invited talk
Exploring Fano-Resonance Phenomenology with Quantum Point Contacts
Jonas Fransson1 , J. P. Bird2
1
Uppsala University (Sweden), 2 University at Buffalo (USA)
The focus of this joint experimental and theoretical work is on demonstrating a novel form of nonequilibrium
Fano resonance, that is very different in nature to the usual (quasi-equilibrium) implementations of this phenomenon.
11:40 : Invited talk
Electromagnetically Induced Transparency and Absorption
Philippe Tassin
Chalmers University (Sweden)
I will review our work on electromagnetically induced transparency and absorption in metamaterials. By combining dark and radiative resonators in the unit cell, it is possible to create dispersion-engineered metamaterials with transmission spectra reminiscent of electromagnetically induced transparency. We show how the
response can be improved by designing both the radiative and the dissipative loss of the constituent resonators.
12:00 : Invited talk
Optical spin-dependent Fano resonances
Xianji Piao, Sunkyu Yu, Namkyoo Park
Seoul National University (Korea)
We introduce optical spin-dependent Fano resonance, using a chiral resonator enclosed within a pair of
designed birefringent mirrors. It is shown that the interference between two nondegenerate resonances from
the presence of birefringent mirrors develops differentiated Fano resonance for each spin. We prove that
these spin-dependent antisymmetric Fano line shapes originate from the counter-rotating spin eigenvectors.
Utilizing the spectral separation between different spin, we propose a route to achieve optical spin-angularmomentum without the aid of circular-dichroism or magneto-optical effect.
12:20 : Invited talk
Interference of nano-vortex fields formed by plasmonic cavities
Keiji Sasaki
Hokkaido University (Japan)
We demonstrate the capability of forming the single-nanometer-sized optical vortex fields using designed
plasmonic nanostructures. The orbital and spin angular momenta provided by a Laguerre-Gaussian beam
are transferred to localized plasmons of a metal multimer structure and then confined into a nano-gap. Nanoscale position dependent Fano resonance spectra are observed, which are caused by interference of multiple
vortex modes having different angular momenta.
10:00 - 12:50 — Estepona
Session 3A7
SP20. Chiral Optics and Chiral Materials: Interplaying Structures
Organized by: David Andrews and Manuel Nieto-Vesperinas
Chaired by: David Andrews and Manuel Nieto-Vesperinas
10:00 : Invited talk
Formation of chiral nanostructures by optical angular momentum transfer effects
Takashige Omatsu
Chiba University (Japan)
Optical vortices, e.g., helical lights, enable us to twist various materials, such as metal, silicon, and azopolymer, by orbital angular momentum transfer effects. This allows us to form the chiral nanostructures in the
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atmosphere and at room temperature.
10:20 : Invited talk
Manipulating the hybridisation of chiral plasmonic metamaterials using molecular and macromolecular stereostructure
Calum Jack1 , Affar S. Karimullah1 , Ryan Tullius1 , Vincent M. Rotello2 , Graeme Cooke1 , Nikolaj Gadegaard1 ,
Laurence D. Barron1 , Malcolm Kadodwala1
1
University of Glasgow (United Kingdom), 2 University of Massachusetts (USA)
Here we show that the hybridisation of plasmonic modes (electric and magnetic) in a chiral metamaterial
(inverse -solid hybrid) can be manipulated using chiral (bio)materials, and the effects are dependent both on
the molecular and macromolecular stereochemical structure. Biomaterials with different secondary structure
motifs (i.e. a-helical, b-sheet and random coil structures) have differing effects on the level of coupling and
thus provide unique fingerprints of biomacromolecular structure.
10:40 : Invited talk
Chiral Tips and Nanoparticles for Visible and Ultraviolet Plasmonics
David J. Norris
ETH Zurich (Switzerland)
In an effort to produce chiral plasmonic structures beyond helices and nanoparticle aggregates, we recently
developed a simple route to produce pyramidal tips and nanoparticles with a chiral shape. These structures,
which are made from either gold or aluminum, can exhibit plasmonic resonances with intense chiral near
fields. In this talk, we will discuss the fabrication, characterization, and use of these structures.
11:00 : Probing chirality of molecule in the presence of nanoparticles
Tong Wu, Xiangdong Zhang
Beijing Institute of technology School of physics (China)
We present a T-matrix method to study the interaction between optical waves and the chiral molecule in a
cluster of nanoparticles. We find the plasmon mediated interaction between two molecules is strong when two
molecules are inserted into plasmonic hot spots of nanostructures. Furthermore, large circular dichroism may
be aroused from structure chirality of nanocomposites. We also investigate the interaction exists between the
optical orbital angular momentum and the chiral cluster.
11:15 : Invited talk
Classical electromagnetic scattering response of topological insulators
Tom Mackay1 , Akhlesh Lakhtakia2
1
University of Edinburgh (United Kingdom), 2 The Pennsylvania State University (USA)
Classically, a topological insulator may b emodelled either as (i) an achiral nonreciprocal biisotropic dielectricmagnetic material, or (ii) an isotropic dielectric-magnetic material whose surface is endowed with charge and
current densities characterized by a surface admittance. In terms of electromagnetic scattering responses
frmo a topological-insulator half-space and from a topological-insulator sphere, the two models yield the
same results. However, only model (ii) is consistent with topologiical insulators having protected conducting
states at their surfaces.
11:35 : Invited talk
Chiral Rotational Spectroscopy
Robert. P. Cameron, J. B. Gotte, S. M. Barnett
University of Glasgow (United Kingdom)
Chiral molecules illuminated by circularly polarised light reveal their orientated chiroptical responses and
much more besides via their rotational spectrum.
11:55 : Invited talk
Electromagnetic Duality Symmetry in Optical Activity
Ivan Fernandez-Corbaton, Martin Fruhnert, Carsten Rockstuhl
Karlsruhe Institute of Technology (Germany)
Recent research shows that the lack of spatial inversion symmetries is not the only necessary condition
for a system to be optically active. For general illumination / scattering directions, electromagnetic duality
symmetry is an additional necessary condition. We use these two conditions to design structures exhibiting
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optical activity in general scattering directions.
12:15 : Invited talk
Cold atoms and optical vortex beams
Sonja Franke-Arnold
Physics and Astronomy University of Glasgow (UK)
Atoms that are exposed to a magnetic field display behaviours similar to chiral media. I will discuss the
interaction of cold rubidium atoms with optical vortex beams, and report on our measurements of magnetic
field mediated EIT (electro-magnetically induced transparency). We observed that the local opacity of the cold
atoms is dictated by the structure of the optical vortex and the applied magnetic field.
12:35 : Selectively Driving Optical Matter
Uttam Manna, Jung-Hoon Lee, John A. Parker, Nolan Shepherd, Tiansong Deng, Youssef Weizmann,
Norbert F. Scherer
University of Chicago (USA)
We induce magnetic responses in meso-scale materials by exploiting the Maxwell-Faraday law of induction
by employing an electric field with instantaneous curl to produce an instantaneous displacement current. We
employ cylindrical vector beams with azimuthal polarization to create a cylindrical electric field, and selectively
induce optical frequency magnetic responses in metal nanoparticle-based nanomaterials. We demonstrate
this in 2- and 3-dimensional systems that do not have to possess cylindrical symmetry.
10:00 - 12:35 — Benalmadena
Session 3A8
SP23. Subwavelength grating structures and metamaterials for integrated
photonics
Organized by: Pavel Cheben and Robert Halir
Chaired by: Hon Tsang
10:00 : Invited talk
Dielectric metasurfaces for beam shaping, mode matching and polarization selection
Meir Grajower, Boris Desiatov, David Ohana, Jonathan Bar David, Noa Mazurski, Uriel Levy
The Hebrew University of Jerusalem (Israel)
We present our recent results related to high index metasurfaces with applications in mode matching, beam
shaping and polarization selectivity.
10:20 : Invited talk
Photonic crystal slot cavities, high-sensitivity nanotweezers
S. Hamed Mirsadeghi, Jonathan Massey-Allard, Jeff F. Young
University of British Columbia (Canada)
A silicon photonic circuit, composed of grating couplers and waveguides coupled to a photonic crystal slot
cavity, is designed and fabricated for optical trapping and sensing applications. Experiments with Au nanospheres and nanorods demonstrate that these devices can optically trap nanoparticles as small as thirty
nanometers with sub-mW laser power. By modelling the time-series transmission data while single nanoparticles are trapped in the cavity, it is possible to quantify the size and anisotropy of the particles with nanometer
precision.
10:40 : Invited talk
Sub-wavelength cladded suspended silicon photonic components for the mid-infrared: fabrication
and experiments
Milos Nedeljkovic1 , Alejandro Ortega-Monux2 , Jordi Soler Penades1 , Gonzalo Wanguemert-Perez2 , Ali
Z. Khokhar1 , Robert Halir2 , Zhibo Qu1 , Wei Cao1 , Colin Mitchell1 , Stevan Stankovic1 , Frederic Gardes1 ,
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Carlos Alonso-Ramos3 , Pavel Cheben4 , Inigo Molina-Fernandez2
1
University of Southampton (United Kingdom), 2 Universidad de Malaga (Spain), 3 University of Paris Sud
(France), 4 National Research Council (Canada)
We report on development of a library of silicon membrane based photonic integrated circuits operating at
the mid-infrared wavelength of 3.8um. Waveguides are formed with a lateral cladding consisting of etched
subwavelength grating holes, which allow wet etching of the underlying buried oxide layer and formation of a
suspended waveguide core. Experimental realizations of low-loss waveguides, bends, s-bends, and MMIs in
the platform will be presented. Our recent work on mid-infrared devices in silicon-on-insulator and germaniumon-silicon will be discussed.
11:00 : Invited talk
Design of integrated photonic devices based on subwavelength structures for Near and Mid-Infrared
applications
Alejandro Ortega-Monux1 , J. Gonzalo Wanguemert-Perez1 , Robert Halir1 , Inigo Molina-Fernandez1 ,
Jordi Soler-Penades2 , Milos Nedeljkovic2 , Ali Z. Khokhar2 , Zhibo Qu2 , Wei Cao2 , Colin Mitchell2 , Stevan Stankovic2 , Frederic Gardes2 , Goran Mashanovich2 , Carlos Alonso-Ramos3 , Pavel Cheben4
1
Universidad de Malaga (Spain), 2 University of Southampton (United Kingdom), 3 University of Paris Sud
(France), 4 National Research Council (Canada )
We report our progress in the design of high performance devices using subwavelength grating (SWG) structures for the NIR and the MIR wavelength ranges. We mainly focus on the development of a library of basic
components based on a novel type of suspended silicon waveguide with SWG lateral cladding for MIR applications.
11:20 : Invited talk
Efficient optimization of subwavelength gratings for photonic integrated circuits
James Pond1 , Amy Liu1 , Jens Niegemann1 , Xu Wang1 , Pavel Cheben2
1
Lumerical Solutions-Inc. (Canada), 2 National Research Council (Canada)
Subwavelength gratings provide additional design flexibility compared to conventional waveguide-based devices and are particularly useful for applications such as mode conversion, wavelength selective mirrors and
dispersion engineering. However, subwavelength grating structures have some design and manufacturing
challenges, in part due to the small features which are near the diffraction limit of most optical lithography
systems used for integrated photonics. We discuss methods to design and optimize these devices and provide specific examples of edge couplers and frequency selective mirrors.
11:40 : Invited talk
Recent advancements towards all-optical signal processing
Ivan Glesk1 , J. Wang2 , L. Chen2
1
University of Strathclyde (United Kingdom), 2 McGill University (Canada)
Recent years have seen a rapid growth in demand for ultra high speed data transmission with end users
expecting fast, high bandwidth network access. However as data rates increase, present technology based
on well-established CMOS electronics is becoming increasingly difficult to scale and consequently optical
data networks are struggling to satisfy current user demands. Recently a number of advanced approaches
have been reported developed to overcome this bottleneck based on all optical signal processing using silicon
photonics devices.
12:00 : Invited talk
Homogenisation of sub-wavelength grating waveguides
Trevor James Hall, Hamdam Nikkhah
University of Ottawa (Canada)
The design of sub-wavelength planar light structures is challenging because nanoscale simulation over the
full device may be unreliable. Rather reliance must be placed on a simple homogenisation procedure that captures properties pertinent to the larger scale while smoothing over the smaller scale detail. A homogenisation
approach is described that combines available tools with simple design rules to accurately model subwavelength grating waveguides even closed to Bragg resonance provided proper account is taken of temporal and
spatial dispersion.
12:20 : Directing OLED emission via subwavelength aluminium grating
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Veronika Tretnak1 , Manuel Auer-Berger2 , Joachim R. Krenn1
1
University of Graz (Austria), 2 NanoTec Center Weiz (Austria)
LEDs and organic LEDs (OLEDs) are on the way to take over lightning and display markets. As with other
light emitting or collecting devices, micro- and nanostructures for enhanced light control and thus increased
efficiencies have already found their way into OLEDs. We chose plasmonic nanostructures due to their particularly high mode densities and enhanced optical fields. In addition, their spectral properties can be tuned by
tailoring the nanostructure geometry while regular lattice arrangements can lead to higher efficiency.
10:00 - 12:05 — Mijas
Session 3A9
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Mikhail Kats
10:00 : Invited talk
Polarization tunable monolithic semiconductor lasers with metasurfaces
Guozhen Liang1 , Yongquan Zeng1 , Xiaonan Hu1 , Hao Yu1 , Houkun Liang2 , Ying Zhang2 , Lianhe Li3 ,
Alexander Giles Davies3 , Edmund H. Linfield3 , Qijie Wang1
1
Nanyang Technological University (Singapore), 2 Singapore Institute of Manufacturing Technology (Singapore), 3 University of Leeds (United Kingdom)
In this paper, we demonstrate that the polarization of terahertz (THz) frequency radiation can be continuously
tuned electronically from linear to circular polarization by monolithically integrating in-plane metasurfaces with
two phase-locked semiconductor-based THz quantum cascade lasers (QCLs).
10:20 : Dielectric Nanostructures with High Laser Damage Threshold
Andrew Chun Yong Ngo1 , Liying Hong2 , Jie Deng1 , Eng Huat Khoo3 , Zhengtong Liu3 , Rui Fen Wu4 ,
Jing Hua Teng1
1
Institute of Materials Research and Engineering (Singapore), 2 Nanyang Technological University (Singapore), 3 Institute of High Performance Computing (Singapore), 4 DSO National Laboratories (Singapore)
Dielectric-based metamaterials are proposed to be the ideal candidates for low-loss, high efficiency devices.
However, to employ dielectric nanostructures for high power applications, the dielectric material must have a
high laser induced damaged threshold (LIDT) value. In this work, we investigated the LIDT values of dielectric
materials for high power fiber laser applications. Consequently, we found that the fabricated SiO2 nanostructures can withstand laser fluence exceeding 100 J/cm2.
10:35 : Holographic Nonlinear Metamaterials
Euclides Almeida, Y. Prior
Weizmann Institute of Science (Israel)
We fabricated and demonstrated three-dimensional computer generated nonlinear metamaterial holograms
based on third harmonic generation. Using plasmonic antennas, we built phase holograms that generate
holographic images in the visible when pumped by an infrared beam. Other polarization-multiplexed optical
elements, such as nonlinear lenses and blazed gratings, were also demonstrated.
10:50 : Lossy and gain metasurfaces for applications of antireflection coatings and parity-time-symmetric
systems
Jie Luo1 , Jensen Li2 , Yun Lai1
1
Soochow University (China), 2 University of Birmingham (United Kingdom)
We investigate lossy and gain metasurfaces with pure imaginary permittivity or permeability in detail. In such
particular metasurfaces, either electric or magnetic field is almost constant. Based on such a unique characteristic, we find out some applications in antireflection coatings and parity-time-symmetric systems. For
instance, it is found that both lossy and gain metasurfaces can operate as ultrathin antireflection coatings. In
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addition, some unique properties are found in the parity-time-symmetric systems composed of the lossy and
gain metasurfaces.
11:05 : Invited talk
Active conducting oxide plasmonics and metasurfaces
Howard (Ho Wai) Lee1 , Harry Atwater2
1
Baylor University (USA), 2 California Institute of Technology (USA)
Metasurfaces composed of planar arrays of sub-wavelength artificial structures show promise for light manipulation, and have yielded novel ultrathin optical components. Here we experimentally demonstrate a gatetunable metasurface that enables dynamic electrical control of the phase and amplitude of the plane wave
reflected from the metasurface. Tunability arises from field-effect modulation of the complex refractive index
of conducting oxide layers incorporated into metasurface antenna elements which are configured in a reflectarray geometry.
11:25 : Invited talk
Graded Metasurfaces for Advanced Wave Control
Nasim Mohammadi Estakhri, Mykhailo Tymchenko, Yakir Hadad, Juan Sebastian Gomez-Diaz, Dimitrios Sounas, Andrea Alu
The University of Texas at Austin (USA)
In this contribution, we review our recent work on passive and active graded metasurfaces, highlighting the
relevant new physics unveiled by introducing spatial and possibly temporal gradients of the impedance along
a thin surface with subwavelength resolution. We present the principles behind our designs, and a number of
applications of these concepts, with special emphasis on optics and nanophotonics.
11:45 : Invited talk
Durable plasmonic metal nitrides and transparent conducting oxides for flat photonics
Krishnakali Chaudhuri, Jongbum Kim, Amr M. Shaltout, Nathaniel G. Kinsey, Sajid Choudhury, Vladimir M. Shalaev, Alexandra Boltasseva
Purdue University (USA)
Transition metal nitrides and transparent conducting oxides are utilized as metallic componentsin the design
of plasmonic metasurfaces. A phase-gradient metasurface with zirconium nitride and aquarter waveplate
metasurface with gallium doped zinc oxide have been developed for the realization ofpractical plasmonic
devices with CMOS-compatible materials.
10:00 - 12:40 — Alhaurin
Session 3A10
SP16. Hyperuniformity and structural correlation in bio-inspired photonics
Organized by: Silvia Vignolini and Frank Scheffold
Chaired by: Silvia Vignolini and Frank Scheffold
10:00 : Invited talk
Isotropically Polarized Speckle Patterns
Mikolaj K. Schmidt1 , Javier Aizpurua1 , Xavier Zambrana-Puyalto2 , Xavi Vidal2 , Gabriel Molina-Terriza2 ,
Juan Jose Saenz1
1
Donostia International Physics Center (Spain), 2 Macquarie University (Australia)
We show that the multiple scattering of helical beams by a random dispersion of dual dipolar nanospheres
leads to a speckle pattern exhibiting a perfect isotropic constant polarization, a situation that could be useful
in coherent control of light as well as in lasing in random media.
10:20 : Invited talk
Robustness and fragility of photonic bandgap in photonic amorphous diamond structures
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Keiichi Edagawa
University of Tokyo (Japan)
Robustness and fragility of photonic bandgap (PBG) in disordered or modified photonic amorphous diamond
(PAD) structures have been investigated by numerical calculations. The original PAD has a rod-connected
random network strucrture with highly ordered local tetrahedral configuration. Our calculations indicated that
the PBG of PAD is robust against introduction of positional disorder but extremely fragile against fracmentation
of the network structure. PBG formation in a higher frequency region was newly found in a PAD structure of
isolated dielectric spheres.
10:40 : Invited talk
Hyperuniformity and local self-uniformity: Photonics band gaps in disordered materials
Marian Florescu, Timothy Amoah, Steven Sellers
University of Surrey (United Kingdom)
Hyperuniform disordered photonic structures are a new class of photonic solids with controlled correlations
on a wide range of length scales. We explore the natural connection between hyperuniformity and photonic
band gaps in structures with a variety of topologies. Furthermore, we introduce the concept of strong isotropy
and local self-uniformity as a topological measure for connected disordered networks and demonstrate that
all champion photonic band structures can be classified using the local self-uniformity metric.
11:00 : Invited talk
Transparency of dense hyperuniform systems
Romain Pierrat, Olivier Leseur, Remi Carminati
Institut Langevin (France)
We show that materials made of scatterers distributed on a hyperuniform point pattern can be transparent at
densities for which an uncorrelated disordered material would be opaque due to multiple scattering. We give
a simple criterion to predict the transparency property of such a system. This opens new perspectives in the
control of waves in strongly disordered systems and for the design of photonic materials.
11:20 : Invited talk
Photonic structures in nature: on order and disorder
Bodo D. Wilts
University of Fribourg (Switzerland)
The striking colors of many animals are due to structural color that arises from light scattered from ordered,
quasi-ordered and disordered material interfaces. Here, we will discuss various coloration mechanisms in
nature, from ordered structures showing remarkable iridescence to disordered structures that feature brilliant
whiteness due to optical scattering in randomly structured media.
11:40 : Invited talk
Disorder to enhance and tailor the light-matter interaction
Pedro David Garcia Fernandez
Catalan Insitute of Nanoscience and Nanotechnology (Spain)
Fabrication disorder is usually considered a nuisance in photonic nanostructures but it is essentially unavoidable. However, we can use it in our advantage to tailor the interaction between light and matter. Disorder can
be exploited to enhance the spontaneous emission of light and to obtain efficient lasing at the nanoscale.
12:00 : Invited talk
The Role of Short-Range Order and Hyperuniformity in the Formation of Band Gaps in Disordered
Photonic Materials
Luis S. Froufe-Perez1 , Michael Engel2 , Pablo F. Damasceno2 , Nicolas Muller1 , Jakub Haberko3 , Sharon
C. Glotzer2 , Frank Scheffold1
1
University of Fribourg (Switzerland), 2 University of Michigan (USA), 3 AGH University of Science and Technology (Poland)
We disentangle the role of short-range order and hyperuniformity in producing photonic band gaps. For this
purpose we study two-dimensional high refractive index disordered materials. The dielectric structure is derived from packing disks in real and reciprocal space. Our findings suggest that the band gap width can be
maximized by optimization of short-range order. Tailoring of Bragg scattering at the isotropic Brillouin zone is
discussed.
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12:20 : Invited talk
A deterministic aperiodic approach to three-dimensionally photonic structures with tailored disorder
Michael Renner, Marie-Christine Angermann, Georg von Freymann
University of Kaiserslautern (Germany)
Many structures in nature follow mathematical series to achieve distinct photonic effects. We tailor disorder in
originally perfectly ordered samples by introducing deterministic aperiodic distortions following mathematical
series, e.g., Fibonacci and Rudin-Shapiro. We investigate photonic transport properties and compare them to
Monte-Carlo simulations finding almost isotropic scattering.
10:00 - 12:05 — Sierra Nevada
Session 3A11
SP10. Nanophotonics using Hybrid and New Plasmonic Materials
Organized by: Mohamed Swillam
Chaired by: Mohamed Swillam
10:00 : Invited talk
Hybrid plasmonic add-drop filter based on novel micro-ring-disk resonators with fJ switching energy
Dimitrios C. Zografopoulos1 , Mohamed A. Swillam2 , Romeo Beccherelli1
1
Consiglio Nazionale delle Ricerche (Italy), 2 The American University in Cairo (Egypt)
We present a hybrid plasmonic add-drop filter based on a micro-ring-disk with submicron dimensions. The
device is based on the conductor-gap-silicon hybrid plasmonic platform and utilizes an embedded electrooptical polymer to control the wavelength-selective coupling between two bus lines. The novel micro-ring-disk
resonator combines the easier fabrication of a microdisk resonator with the lower capacitance of a microring
resonator and provides high modulation depths, low insertion losses, and power consumption around 1 fJ/bit.
10:20 : Nonlinear organic plasmonics: Bistability of exciton polaritons and applications to optical
control of Coulomb blocking in nanojunctions
Boris Fainberg1 , Guangqi Li2
1
Tel Aviv University (Israel), 2 Northwestern University (USA)
We develop a theory of nonlinear organic plasmonics with strong laser pulses. The bistability response of the
electron-vibrational model of organic materials in the condensed phase has been demonstrated that results
in bistability of the surface localized polaritons. We propose the exciton control of Coulomb blocking in the
quantum dot wire based on non-steady-state nonlinear organic plasmonics that enable us to obtain near-zero
dielectric permittivity during a short time.
10:35 : Highly-responsive subwavelength plasmonic photodetector for silicon nanophotonics
Igor A. Khramtsov, Dmitry Yu. Fedyanin
Moscow Institute of Physics and Technology (Russia)
We demonstrate a deep-subwavelength integrated copper/germanium/copper plasmonic photodetector, which
can be directly integrated in silicon-photonic nanocircuitry operating at telecom wavelengths. In spite of the
low Schottky barrier height, we show for the first time how to use this drawback to increase the responsivity
of the nanoscale photodetector. The resulting output voltage exceeds 100 meV and the photocurrent-to-darkcurrent ratio is of about 1000 for typical values of the optical signal power in on-chip optical interconnects.
10:50 : THz lattice vibrations for active plasmonics with light: Ultrafast optical response in gold/telluride
hybrid plasmonic crystals
Lars Erik Kreilkamp1 , I. A. Akimov1 , V. I. Belotelov2 , B. A. Glavin3 , L. Litvin4 , A. Rudzinski4 , M. Kahl4 ,
R. Jede4 , M. Wiater5 , T. Wojtowicz5 , G. Karczewski5 , D. R. Yakovlev1 , M. Bayer1
1
TU Dortmund University (Germany), 2 Lomonosov Moscow State University (Russia), 3 Lashkaryov Institute
of Semiconductor Physics (Ukraine), 4 Raith GmbH (Germany), 5 Polish Academy of Sciences (Poland)
The excitation of coherent optical phonons in solids provides a pathway for ultrafast modulation of light on
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a sub-ps timescale. Here, we report on efficient 3.6THz modulation of light reflected from hybrid metalsemiconductor plasmonic crystals caused by lattice vibrations in a few nm thick layer of elemental tellurium.
Two effects mediated by plasmonic field enhancement are studied via time-resolved pump-probe spectroscopy: photoinduced formation of Te at the gold-semiconductor interface and enhancement of the optical response.
11:05 : Hybrid plasmonic structures for wave mixing at the nanoscale
Guillaume Laurent, M. Ethis De Corny, N. Chauvet, G. Nogues, M. Jeannin, A. Drezet, S. Huant, G.
Dantelle, T. Gacoin, G. Bachelier
Neel Institute (France)
Our work focuses on the optical response of hybride nano-particles composed of metal particles coupled with
non-linear crystal. Electromagnetic field enhancement due to plasmonic resonance is expected to enhance
the non-linear response of nano-sized KTP like crystals. Here, we present our results on the modelling and
the experimental study of the Second Harmonic Generation (SHG) in nonlinear cristals coupled or not with
metal particles.
11:20 : Hybrid Single Mode Nanophotonic-Plasmonic Waveguides for On-Chip Surface Enhanced Raman Spectroscopy
Frederic Peyskens1 , Ashim Dhakal1 , Pol Van Dorpe2 , Nicolas Le Thomas1 , Roel Baets1
1
Ghent University (Belgium), 2 KULeuven (Belgium)
We introduce a hybrid nanophotonic-plasmonic platform capable of generating Surface Enhanced Raman
Spectroscopy signals from integrated bowtie antennas, excited and collected by a single mode silicon nitride
waveguide. Moreover we discuss the relevant figure of merit, which represents the total Stokes power coupled
into the fundamental waveguide mode for a given pump power, and outline strategies to optimize the Signalto-Noise Ratio.
11:35 : Resonance based hybrid plasmonic on-chip sensor
Aya Zaki, Khaled Kirah, Mohamed Swillam
The American University in Cairo (Egypt)
We introduce a plasmonics sensor based on resonance. The plasmonic nature of the cavity allows the light to
bend over its sharp edges resulting in more light confinement at the edges. We provide a novel mechanism
of coupling that enhances the light matter interaction inside the cavity. Sensitivity of 1500 nm/RIU is reached
at wavelength around 1.55 um.
11:50 : High Performance Nano-Plasmonic MIM-Based Lab-on-Chip Sensor
Ahmad Bassam Ayoub, Mohamed Swillam
American University in Cairo (Egypt)
We propose a novel structure for a plasmonic gas sensor. The idea of operation is based on Metal-InsulatorMetal approach. The plasmonic slot mode enables high confinement in the insulator gap which is the gas
being sensed leading to high sensitivity. High sensitivity and small foot print is achieved through this plasmonic
design. Optimization processes yield high sensitivity as high as 1,521 nm/RIU, FWHM down to 9 nm and FOM
of 169 which is the greatest FOM to our knowledge.
Lunch and Exhibit Inspection
12:30 - 14:00
14:00 - 16:05 — Malaga
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Session 3A12
SP19. Nanophotonics, optical forces and the momentum of light
Organized by: Philippe Tassin and Vincent Ginis
Chaired by: Philippe Tassin and Vincent Ginis
14:00 : Keynote talk
High Performance Visible Wavelength Dielectric Metasurfaces for Planar Photonic Components
Federico Capasso
Harvard University (USA)
A new technique based on atomic layer deposition to fabricate high performance Titanium Dioxide dielectric
metasurfaces is introduced. We show efficiencies of 61 percent, 82 percent and 81 percent at design wavelengths of 480 nm, 532 nm, and 660 nm. Meta-lenses with NA=0.8 are demonstrated at wavelengths of 405
nm, 532 nm, and 660 nm with corresponding focusing efficiencies of 86 percent, 73 percent, and 66 percent,
along with vortex plates and holograms.
14:30 : Invited talk
Boundary optical stress: pressure or tension?
Shubo Wang, C. T. Chan
The Hong Kong University of Science and Technology (Hong Kong)
Using a generic microscopic model, we show that the boundary stress induced by an electromagnetic plane
wave in a negative-refractive-index metamaterial depends not only on the macroscopic effective permittivity
and permeability but also on the microscopic lattice symmetry of the polarizable units that constitute the
metamaterial. The lattice effect is attributed to electrostriction and magnetostriction which can be accounted
for by the Helmholtz stress tensor within the context of effective medium theory.
14:50 : Invited talk
General Design Approaches in Geometrical Optics, Graded-Index Lenses, and Tracing of Optical Force
Aaron J. Danner1 , Alireza Akbarzadeh2 , Tomas Tyc3
1
National University of Singapore (Singapore), 2 Foundation for Research and Technology (Greece), 3 Masaryk
University (Czech Republic)
Graded-index lenses that exhibit strict global behavior, such as absolute optical instruments (where all ray
trajectories must be closed) can be difficult to mathematically construct because of the inherent one-way
nature of lens design: it’s easy to carry out raytracing when given an index profile, but much more difficult to
design a lens with a specified desired behavior. A few approaches to this problem will be discussed, along
with an extension of some techniques to optical force.
15:10 : Invited talk
Strong coupling between waveguide-modes of opposite directionality: nearly-frozen light modes
S. Foteinopoulou
University of New Mexico (USA)
Conventional dielectric waveguides support forwards light modes, where the phase velocity is parallel to
the energy velocity. On the other hand, metamaterial waveguides having a negative refractive index support
backwards light modes, with anti-parallel phase and energy velocities. We will discuss, how these two individual native modes can strongly couple into a new exotic nearly-frozen light mode. This unconventional light
mode gives rise to an extra-ordinary mesoscale EM enhancement that is important to harnessing a strong
light-matter interaction.
15:30 : Invited talk
THz polarization control with chiral metamaterials
M. Kafesaki, G. Kenanakis, A. Xomalis, M. Farsari, G. Konstantinidis, E. N. Economou, C. M. Soukoulis
IESL (Greece)
We discuss our studies on THz planar chiral metamaterials and the potential they show for THz polarization
control. Besides planar structures we discuss also 3D bulk chiral metamaterial structures enabling additional
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functionalities, such as asymmetric transmission, asymmetric perfect absorption, and broadband polarization
conversion for both linear and circularly polarized waves.
15:50 : Enhancing optical forces between coupled waveguides using complex effective gauge fields
Lana Descheemaeker1 , Vincent Ginis1 , Sophie Viaene1 , Jan Danckaert1 , Philippe Tassin2
1
Vrije Universiteit Brussel (Belgium), 2 Chalmers University (Sweden)
We propose a novel mechanism to enhance the optical gradient forces between closely spaced waveguides
based on the effective gauge potential for photons.
14:00 - 15:40 — Ronda
Session 3A13
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Howard Lee
14:00 : Invited talk
Topological darkness of Tamm plasmons for high-sensitivity singular-phase optical detection and tunable thermal emission
Svetlana V. Boriskina1 , Jonathan K. Tong1 , Yoichiro Tsurimaki1 , Bolin Liao1 , Yi Huang1 , Victor Boriskin2 ,
Alexander Semenov3 , Mykola I. Ayzatskiy2 , Gang Chen1
1
Massachusetts Institute of Technology (USA), 2 Kharkiv Institute of Physics and Technology (Ukraine), 3 National
Academy of Sciences of Ukraine (Ukraine)
I will discuss our efforts in developing thin multilayered photonic-plasmonic structures that support Tamm plasmon modes and exhibit topologically protected zero reflection. Light interference that is accompanied by zero
reflection and fast phase variations can be used to improve the sensitivity of temperature and bio(chemical)
sensors with optical transduction. I will also discuss the applications of Tamm plasmon structures for spectral
tailoring of thermal emission, including dynamic spectral tunability via the use of the phase-change materials.
14:20 : Invited talk
Electrostatically Tunable Graphene Metasurfaces for Control of Thermal Radiation
V. W. Brar1 , L. Kim2 , M. C. Sherrott2 , M. S. Jang3 , S. Kim2 , W.-H. Lin2 , M. Choi3 , L. A. Sweatlock4 , H. A.
Atwater2
1
University of Wisconsin (USA), 2 California Institute of Technology (USA), 3 Seoul National University (Korea),
4
Northrop Grumman Aerospace Systems (USA)
We experimentally demonstrate tunable electronic control of blackbody emission from a graphene metasurface. It is shown that graphene plasmonic resonators produce antenna-coupled thermal emission that can be
varied in terms of spectral shape and intensity, and that incandescent devices with Khz response times can
be created in this way. We analyze our results in terms of loss mechanisms of graphene electrons and substrate phonons, and we describe how device geometry can be optimized to create larger signals with faster
response times.
14:40 : Invited talk
Device Applications of Metafilms
M. L. Brongersma
Stanford University (USA)
Device applications of metafilms are discussed. Metafilms are thin films of semiconductor or metal material
that are patterned at a subwavelength scale. The patterning is performed to modify the effective optical
properties from those of bulk materials. This can be utilized to realize improved device performance or entirely
new optical functions.
15:00 : Invited talk
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Tunneling rectification in an infrared nanoantenna coupled MOS diode
Paul S. Davids, E. A. Kadlec, S. W. Howell, D. W. Peters
Sandia National Labs (USA)
We present experimental results that demonstrate direct tunneling recti cation of infrared light in a large
area nanoantenna coupled tunnel diode. This represents a new thermo-electric conversion mechanism for
transformation of waste heat in the form of infrared radiation into electrical current.
15:20 : Invited talk
Electrochemically Programmable Plasmonic Antennas
Shi Dong1 , Kai Zhang1 , Zhiping Yu1 , Jonathan A. Fan2
1
Tsinghua University (China), 2 Stanford University (USA)
We propose a scalable, fast, and energy efficient implementation to programming the optical properties of
individual dipole antennas using an electrochemical approach. The concepts are inspired by conductivebridge random access memory and enable plasmonic modes to be programmed on or off.
14:00 - 15:40 — Nerja
Session 3A14
SP26. Advances in plasmonic and metamaterial devices
Organized by: >Renmin Ma and Junsuk Rho
Chaired by: Renmin Ma and Junsuk Rho
14:00 : Invited talk
An MOS platform for sub-wavelength focusing and shaping of visible light
Guy Bartal
Technion (Israel)
We have devised an MOS platform, utilizing the high refractive index of Silicon to scale the diffraction limit by
4-fold compression of the wavelength thereby achieving resolution at the order of 10-s of nanometers at visible
light - comparable to that of single-molecule microscopy techniques. Utilizing this scaled diffraction limit, we
present phase-resolved near-field observations of propagating-waves bright and dark focusing below 70 nm
at 671nm illumination, and direct observation of short-wavelength Super-Oscillations in planar 2D Hybrid
Silicon-plasmon waveguides.
14:20 : Invited talk
Backward spoof surface plasmonic wave propagation and waveguide devices utilizing structured
ultra-thin metallic films
Yijun Feng, Xiaoyong Liu, Junming Zhao, Bo Zhu, Tian Jiang
Nanjing University (China)
Backward spoof surface plasmonic wave with anti-parallel phase and group velocities is demonstrated experimentally in a single-conductor waveguide composed of plasmonic metamaterial of structured ultra-thin
metallic film. As an application, a contra-directional coupler in the microwave band is designed and verified
that can route the input signal to opposite directions with forward or backward coupling at different frequencies. These results could contribute to the development of more complicated surface circuitry for microwave
and terahertz wave.
14:40 : Invited talk
Integrated Photonics Engineered Around Exceptional Points
Liang Feng
The State University of New York at Buffalo (USA)
Exceptional point is a fundamental notion in quantum field theories and enables new functionalities in photonics. In this talk, I will discuss harnessing parity-time (PT) symmetry to realize optical exceptional points using
the state-of-the-art integrated nanophotonics technology for novel optoelectronic functionalities. I will present
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unidirectional light transport and coherent light control at PT exceptional points on a passive silicon platform and effective control of cavity resonant modes for stable lasing performances on a III-V semiconductor
platform.
15:00 : Invited talk
Disposable Plasmonics: Plastic Templated Plasmonic Metamaterials with Tunable Chirality
Affar S. Karimullah1 , Calum Jack1 , Ryan Tullius1 , Vincent M. Rotello2 , Graeme Cooke1 , Nikolaj Gadegaard1 ,
Laurence D. Barron1 , Malcolm Kadodwala1
1
University of Glasgow (United Kingdom), 2 University of Massachusetts (USA)
Here we present a novel material, a continuous plasmonic metafilm consisting of periodic arrays of chiral
nanostructures with optical properties that are significantly dependent on film thickness. These metafilms
are grown on nano-indented polycarbonate substrates which are fabricated using high-throughput injection
molding, a technique used for Blu-Ray manufacturing. Thus these ’Templated Plasmonic Substrates’ (TPS)
offer low cost high-throughput fabrication, effectively a disposable consumable, with properties which can be
easily tuned in the production process.
15:20 : Invited talk
Plasmon Lasers for Sensing
Renmin Ma
Peking University (China)
Plasmon lasers amplify light coupled to oscillating electrons enabling their physical size and mode volume
to shrink below the diffraction limit. The recent emergence of plasmon lasers also stimulates the exploration
of nanometer-scale science and application towards the rich physics of deep sub-wavelength optics and the
development of high performance devices. In this talk we will review our recent work on plasmon lasers for
sensing.
14:00 - 15:50 — Antequera
Session 3A15
SP28. On-chip Integrated Quantum Photonics
Organized by: Luca Sapienza and Alessandro Casaburi
Chaired by: Luca Sapienza and Alessandro Casaburi
14:00 : Invited talk
Quantum-dot-based on-chip functionality in III-V circuits
Maurice Skolnick
University of Sheffield (United Kingdom)
This talk will describe recent work on III-V quantum dots incorporated in nano-photonic circuits.
14:20 : Invited talk
Fully-tuneable, cavity-enhanced waveguide single-photon sources
Andrea Fiore1 , Maurangelo Petruzzella1 , Simone Birindelli1 , Francesco Pagliano1 , Zarko Zobenica1 ,
Lianhe Li2 , Edmund Linfield2
1
Eindhoven University of Technology (The Netherlands), 2 University of Leeds (United Kingdom)
Efficient sources of indistinguishable single photons are required for integrated quantum photonics. We present an integration scheme which enables the funneling of photons emitted by single semiconductor quantum
dots from nanophotonic cavities into waveguide circuits and the combined tuning of the emitter energy and
cavity frequency. This allows bringing distinct sources in resonance with each other and therefore the on-chip
production of indistinguishable single-photons.
14:40 : Invited talk
Efficient parametric interactions in Photonic Crystals Waveguides and Resonators
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A. Martin1 , G. Moille1 , T. Debuisschert1 , A. P. Mosk2 , G. Eisenstein3 , S. Combrie1 , A. De Rossi1
1
Thales Research and Technology (France), 2 University of Twente (The Netherlands), 3 Technion (Israel)
Enhanced Kerr nonliner response in semiconductor photonic crystals is exploited for wavelength conversion,
ultra-fast gating, phase-sensitive amplification and correlated photon pairs. In waveguides, Four Wave Mixing
and related effects can be controlled through dispersion-engineering to a very broad extent. In coupled resonators, we show efficient parametric interactions and intense spontaneous emission of photons with an
optical pump below 100 mu W.
15:00 : Invited talk
Quantum photonic circuits using single photons from a quantum dot.
Anthony J. Bennett1 , J. P. Lee1 , D. J. P. Ellis1 , E. Murray1 , F. Floether1 , J. Griffiths2 , T. Meany1 , I. Farrer2 ,
D. A. Ritchie2 , A. J. Shields1
1
Toshiba Resaerch Europe Limited (United Kingdom), 2 Cambridge University (United Kingdom)
Leveraging the advantages of integrated optics for quantum photonics has led to a new functionality and
complexity. The inclusion of a source that delivers high efficiency single photons, such as a quantum dot,
is particularly attractive. We show here how a resonantly driven quantum dot can create indistinguishable
photons for use in on-chip quantum optics experiments. Further, we present a device where the source and
circuit, bonded together, create and manipulate quantum light at cryogenic temperatures.
15:20 : A modal approach to light emission and propagation in coupled cavity waveguide systems
Philip T. Kristensen1 , Jakob Rosenkrantz de Lasson2 , Niels Gregersen2 , Jesper Mork2
1
Humboldt Universitat zu Berlin (Germany), 2 Technical University of Denmark (Denmark)
We theoretically investigate systems of optical cavities coupled to waveguides, which necessitates the introduction of non-trivial radiation conditions and normalization procedures. In return, the approach provides
simple and accurate modeling of Green functions, Purcell factors and perturbation corrections, as well as an
alternative approach to the so-called coupled mode theory. In combination, these results may form part of the
foundations for highly efficient, yet physically transparent models of light emission and propagation in both
classical and quantum integrated photonics.
15:35 : Quantum correlations of light and matter through environmental transitions
Ahsan Nazir1 , Jake Iles-Smith2
1
The University of Manchester (United Kingdom), 2 DTU Fotonik (Denmark)
One aspect of solid-state photonic devices that distinguishes them from their atomic counterparts is the unavoidable interaction between system excitations and lattice vibrations of the host material. I shall explain how
this coupling may lead to surprising departures in emission properties between solid-state and atomic systems. Specifically, I shall show that in solid-state cavity quantum electrodynamics, interactions with the host
vibrational environment can generate quantum cavity- emitter correlations in regimes that are semiclassical
for atomic systems.
14:00 - 15:15 — Fuengirola
Session 3A16
SP34. Fano resonances in optics and microwaves: Physics and application
Organized by: Eugene Kamenetskii
Chaired by: Eugene Kamenetskii
14:00 : Invited talk
A Wideband Resonant Cavity Antenna Based on Fano Resonance Effect in a Two Layer Patch Array
Based Superstrate
C. H. Wang, K. Kanjanasit, P. Record
Heriot-Watt University (United Kingdom)
We present the first demonstration of a wide band resonant cavity antenna (RCA) enabled by the Fano
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resonance effect in a two layer patch array based metamaterial as the superstrate. The antenna device
was designed to operate over the frequency band of 8 to 12 GHz. The two layer square patch array based
superstrate was designed to exhibit Fano resonance at 10 GHz. The primary source of the RCA device was
a wideband patch antenna.
14:20 : Microwave magnetoelectric fields and Fano resonances
Eugene Kamenetskii
Ben Gurion University (Israel)
Microwave near fields of a small ferrite particle with magnetic dipolar mode (MDM) oscillations have space
and time symmetry breakings. Such MDM originated fields - called magnetoelectric (ME) fields - carry both
spin and orbital angular momentums. The topology of ME fields is strongly correlated with properties of the
Fano resonance spectra oberved at terminals of a microwave structure.
14:35 : Invited talk
Photonic crystal Fano structure for all-optical switching
Yi Yu, Weiqi Xue, Hao Hu, Leif Katsuo Oxenlowe, Kresten Yvind, Jesper Mork
Technical University of Denmark (Denmark)
We present experimental investigations on nonlinear photonic crystal Fano structures based on a waveguide
coupled to a nanocavity. We show that the use of Fano resonance in combination with spatial symmetry
breaking can enable significant improvement in high-speed low-energy all-optical switching.
14:55 : Invited talk
Fano effects in hybrid nanostructures
Wei Zhang
Institute of Applied Physics and Computational Mathematics (China)
We discuss various aspects of Fano effects in hyrid nanostructures made of metallic nanoparticles, semiconductor quantum dots and molecules. The interaction between excitons and plasmons leads to the formation
of the hybrid exciton. Moreover, the interference between the exciton and plasmon channels leads to the
nonlinear Fano effect, which appears in strong field regime and can be tuned by the incident field. The Fano
effect in nanoparticle arrays with near field interaction and collective behavior has also been addressed.
15:15 - 15:55 — Fuengirola
Session 3A17
SP32. Novel photonic and plasmonic structures: theory and applications
Organized by: Ching Eng Png and Qingguo Du
Chaired by: Qingguo Du and Gandhi Alagappan
15:15 : Invited talk
Optical Periodic Structures with Double Spatial Resonance
Gandhi Alagappan, C. E. Png
A*STAR (Singapore)
This article summarizes the intriguing optical properties of a periodic structure that has double spatial resonance. Such periodic structures exhibit a unique dispersion curve that is fundamentally different from the
conventional periodic structures.
15:35 : Invited talk
The applications of macro-optical elements in micro/nano scale
Haitao Dai, M. X. Run
Tianjin University (China)
Until now, many mature optical designs in geometric optics, such as Luneburg lens, Yagi-Uda antenna, have
been found promising applications in photonics, in which the scale of devices are reduced to micro/nano
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range. In this report, we investigated kinds of applications in photonic fields by employing subsistent macro
optical devices, for example modified Luneburg lens and Maxwell fish-eyes lens, to achieve nanojet or tightly
focusing.
14:00 - 16:00 — Estepona
Session 3A18
SP29. Nonlinear photonic crystals and metamaterials
Organized by: Fangwei Ye and Boris Malomed
Chaired by: Alex Yulin and Fangwei Ye
14:00 : Invited talk
Topological Description and Nonlinearity Enhancement for Optical Mirrors
Hong Chen
Tongji University (China)
In this talk we will discuss our recent studies on nonlinearity enhancement of an optical thick metal slab
based on the mechanism of the topological edge states. We have developed a topological description for
optical mirrors by mapping Maxwell’s equation to the Dirac equation in 1D systems . It is shown that there
exist topological photonic edge states in a pairing structures made of a metal slab and a MNG-like 1D photonic
crystal.
14:20 : Invited talk
Improved nonlinear plasmonic slot waveguides
Mahmoud Mohamed Reda Elsawy, Gilles Renversez
Aix-Marseille University (France)
We study the main properties of TM modes in an improved symmetric metal slot waveguide with a Kerr-type
nonlinear dielectric core, adding linear dielectric buffer layers between the metal cladding and the core. The
stability of the main modes has also been demonstrated numerically. Our model is extended to consider
complex waveguides with nonlinear hyperbolic metamaterials embedded between two metal cladding.
14:40 : Invited talk
Shaping optical absorption in disorder gold nanorod assemblies
Yi Xu1 , Jin-Xiang Li2 , Qiao-Feng Dai2 , Shao-Long Tie2 , Sheng Lan2
1
Jinan university (China), 2 South China Normal University (China)
We demonstrate that the relevance between the linear and the nonlinear optical absorption of a gold nanorod assembly can be modulated by plasmonic coupling. The strongly localized modes induced by random
coupling play a crucial role in determing the optical absorption of the plasmonic system.
15:00 : Invited talk
Third harmonic emission from self-organized dielectric meta-surfaces
S. V. Makarov, T. Voitova, A. Tsypkin, V. A. Milichko, I. S. Mukhin, Alexey Yulin, E. Putilin, M. Baranov,
A. E. Krasnok, P. A. Belov
ITMO University (Russia)
The process of laser induced self-organization of silicon clusters is used to fabricate large scale meta-surfaces
showing pronounced optical resonances in the infrared range of wavelengths. It is experimentally demonstrated that the efficiency of third harmonic generation in these systems can be 30 times higher than in spatially
uniform non-resonant films. We managed to generate 40fs pulses of ultraviolet coherent light with total energy
of 1.3nJ at the wavelength of 266nm. A simple theory describing the phenomenon is developed.
15:20 : Invited talk
Self-accelerating Pulses and Their Nonlinear Dynamics
Yi Hu, Zhigang Chen, Jingjun Xu
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Nankai University (China)
Self-accelerating pulses are reviewed together with the development of areas associated with self-accelerating
wave packets, and our study on the control of these pulses as well as on their nonlinear dynamics are presented in this talk.
15:40 : Invited talk
All-optical light storage in bound states in the continuum due to Kerr effect
Evgeny Bulgakov, Konstantin Pichugin, Almas Sadreev
Kirensky Institute of Physics (Russia)
We show that the bound states in the continuum can serve for light storage by the use of Kerr effect. Specifically we present three designs of optical microcavities capable to store light. We also show that light can be
released by a secondary pulse of light. That paves a way for all-optical storage and releasing of light.
14:00 - 15:40 — Benalmadena
Session 3A19
SP23. Subwavelength grating structures and metamaterials for integrated
photonics
Organized by: Pavel Cheben and Robert Halir
Chaired by: Jiri Ctyroky
14:00 : Invited talk
Subwavelength structures in silicon-on-insulator waveguides for efficient and broadband fiber-chip
coupling
Jens H. Schmid1 , Pavel Cheben1 , Dan-Xia Xu1 , Siegfried Janz1 , Jean Lapointe1 , Mohamed Rahim1 ,
Shurui Wang1 , Martin Vachon1 , Robert Halir2 , Alejandro Ortega-Monux2 , Gonzalo Wanguemert-Perez2 ,
Inigo Molina-Fernandez2 , James Pond3 , Daniel Benedikovic4 , Yves Painchaud5 , Marie-Jose Picard5 ,
Michel Poulin5 , Milan Dado6 , Jarmila Mullerova6 , Winnie N. Ye7 , Martin Papes8 , Vladimir Vasinek8
1
National Research Council (Canada), 2 Universidad de Malaga (Spain), 3 Lumerical Solutions-Inc. (Canada), 4 University of Paris Sud (France), 5 Ciena (Canada ), 6 University of Zilina (Slovak Republic), 7 Carleton
University (Canada), 8 Technical University of Ostrava (Czech Republic)
We report our results in developing highly efficient and broadband fiber-chip couplers for silicon photonic
wire waveguides using subwavelength engineered metamaterial structures. We experimentally demonstrate
a subwavelength structure with a coupling efficiency of -0.4 dB and polarization independent operation for a
broad spectral range exceeding 100 nm for optical fiber.
14:20 : Invited talk
Optimization of Subwavelength Structures for Efficient Couplers and Hyperuniform Disordered Integrated Polarizers
Hon Ki Tsang, Wen Zhou, Bing Qing Zhu, Linghai Liu
The Chinese University of Hong Kong (Hong Kong)
We compare integrated photonic devices which have been designed using conventional physics-based models with devices designed by direct numerical optimization. Examples include apodized gratings for improved
mode matching in grating couplers, plasmonic slot waveguide couplers and integrated polarizers using the
polarization-dependent photonic bandgap of hyperuniform disordered structures. These will be compared
with devices designed by direct numerical optimization. Results from devices fabricated using electron beam
lithography will be presented.
14:40 : Invited talk
Subwavelength-engineered interferometer arrays for Fourier-transform spectrometry
Aitor V. Velasco1 , Pavel Cheben2 , Jens Schmid2 , Andre Delage2 , Jean Lapointe2 , Dan-Xia Xu2 , Martin
Vachon2 , Siegried Janz2 , Maria Calvo3 , Alaine Herrero-Bermello1 , Pedro Corredera1
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1
Wednesday 27th July, 2016
CSIC (Spain), 2 National Research Council (Canada), 3 Universidad Complutense de Madrid (Spain)
We report the application of refractive index engineering through subwavelength gratings to a spatial heterodyne Fourier-transform spectrometer in planar silicon waveguides. Subwavelength gratings are used to
produce linearly increasing optical path differences in a Mach-Zehnder interferometer array without waveguide bends. Subwavelength grating couplers are used at the chip facets for optimized fiber coupling and
reduced Fabry-Perot effect.
15:00 : Invited talk
Sub-wavelength Grating Components for the Silicon-on-insulator Platform
Yun Wang1 , Jonas Flueckiger2 , Zeqin Lu1 , Han Yun1 , Minglei Ma1 , Fan Zhang1 , Valentina Donzella1 ,
Nicolas A. F. Jaeger1 , Lukas Chrostowski1
1
University of British Columbia (Canada), 2 Lumerical Solutions-Inc. (Canada)
Sub-wavelength structures introduce new exibility to engineer the index and dispersion properties of siliconon-insulator (SOI) photonic devices. In this paper, we present four types of sub-wavelength grating enabled
devices for the SOI platform, including a broadband sub-wavelength grating coupler, a broadband subwavelength directional coupler, a sub-wavelength polarization splitter-rotator, and a sub-wavelength microring
resonator.
15:20 : Invited talk
Silicon Nitride for Integrated Photonic Applications
Thalia Dominguez Bucio1 , Abdelrahman Zaher Al-Attili1 , Kapil Debnath1 , Shinichi Saito1 , Goran Mashanovich1 ,
Alejandro Sanchez-Postigo2 , Gonzalo Waguemert-Perez2 , Alejandro Ortega-Monux2 , Robert Halir2 ,
Pavel Cheben3 , Frederic Y. Gardes1
1
University of Southampton (United Kingdom), 2 University of Malaga (Spain), 3 National Research Council
(Canada)
Due to its flexible optical properties silicon nitride is an attractive material for integrated photonic circuits.
In this paper, we review the results we have obtained on near-infrared photonic devices including low loss
waveguides based on SiN layers deposited with low temperature PECVD using an ammonia-free chemistry.
In particular, we discuss the fabrication of subwavelength suspended structures to extend the use of SiN to
mid-infrared photonic devices.
14:00 - 15:50 — Mijas
Session 3A20
SP36. Plasmonic sensing, imaging, and other active functions in biology and
medicine
Organized by: Wei-Chuan Shih and Yeon Sik Jung
Chaired by: Wei-Chuan Shih and Yeon Sik Jung
14:00 : Invited talk
Three-dimensional plasmonic metastructures for sensing and imaging
Jonghwa Shin, Nayeun Lee, Reehyang Kim, Taeyong Chang, J. Young Kim, Hyowook Kim
KAIST (Korea)
While plasmonic metasurfaces with a monolayer metallic pattern are promising many novel applications,
extending the geometry to three dimensions allow even more diverse optical properties and applications. At
the same time, the fabrication becomes more challenging due to sub-ten nanometer scale alignment accuracy
required for such three-dimensional structures. Here we introduce examples of extreme optical properties
enabled by three-dimensional structures designed in our lab and demonstrate that some of these structures
can be facilely fabricated by current nanofabrication technology.
14:20 : Invited talk
Nanoparticle mediated photo-protection and - therapy
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Valery Victorovich Tuchin
Saratov National Research State University (Russia)
Nanoparticle mediated laser treatment of diseases is a novel modality in the field of nanomedicine. We will discuss protection of humans from UV light and microorganisms, cancer and inflammatory diseases treatment,
and cell optoporation/transfection using plasmonic gold nanoparticles, photocatalytic TiO2 nanoparticles, and
plasmonic nanocomposites.
14:40 : Invited talk
Surface Plasmon Resonance Behaviors of Gold Nanoring and Their Application to Photothermal and
Photodynamic Therapies
Chih-Ken Chu, Che-Kuan Chu, Yi-Chou Tu, Jen-Hung Hsiao, Jian-He Yu, Yean-Woei Kiang, Chih-Chung
Yang
National Taiwan University (Taiwan)
Bio-conjugated gold nanorings are fabricated on substrate and then transferred into solution for showing the
localized surface plasmon resonance in the spectral range of 1000-1300 nm, in which light can penetrate
into tissue deepest. The combined effects of photothermal and photodynamic therapies are demonstrated
through cancer cell necrosis and apoptosis based on the enhanced absorption and strong local field of the
gold nanorings.
15:00 : Invited talk
Multiplexed molecular imaging with targeted SERS nanoparticles for intraoperative guidance of tumor
resection
Yu Winston Wang, Soyoung Kang, Jonathan Liu
University of Washington (USA)
We are developing a wide-area imaging strategy to enable the imaging of multiple cell-surface protein biomarkers in freshly excised tissues during surgery. This technique utilizes surface-enhanced Raman scattering
(SERS) nanoparticles (NPs) that are targeted to various disease biomarkers and which are topically applied
on surgical specimens to provide molecular-imaging contrast.
15:20 : Plasmon-enhanced molecular sensing and imaging on nanoporous gold disks
Fusheng Zhao, Greggy Santos, Md Masud Arnob, Wei-Chuan Shih
University of Houston (USA)
We have demonstrated that disk-shaped nanoporous gold (NPG) nanoparticles are a unique class of plasmonic nanomaterials with tunable LSPR, 3-dimensional near-field hot-spot distribution, large surface area,
excellent SERS and SEF enhancement factors, and high sensitivity to local index changes. By taking advantage of the abundance of hot-spots in NPG disks, we have developed several applications in molecular
sensing and imaging.
15:35 : Ordered Arrays of Au NP on Nanopipettes for SERS Sensing
Hu Zhu1 , J. P. Spatz2 , J.-F. Masson1 , C. G. Bazuin1
1
Montreal University (Canada), 2 Max-Planck Institute for Intelligent Systems (Germany)
Incorporating plasmonic nanoparticles to patch clamp nanopipettes is a promising technology for miniature
SERS biosensors for cell biology, due to its potential sensitivity and spatio-temporal resolution. Here, we
demonstrate a bottom-up approach to create ordered arrays of nanoparticles deposited on the curved surface
of nanopipettes of pulled optical fibers or capillaries that is essential for stable plasmonic responses in SERS
studies.
14:00 - 16:00 — Alhaurin
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Session 3A21
SP9. Non-Hermitian engineering in photonics, plasmonics and metamaterial
Organized by: Ramy El-Ganainy and Liang Feng
Chaired by: Ramy El-Ganainy and Liang Feng
14:00 : Invited talk
Photonic topological insulators in PT-symmetric systems
Miguel A. Bandres, Gal Harari, Mordechai Segev
Technion (Israel)
We present the first PT-symmetric topological insulator systems. We find that transport in this photonic lattices
is unidirectional and completely robust to PT-conserving defects. By combining topological systems with nonHermitian systems we found a new phenomenon: sources and sinks of topological protected edge states.
14:20 : Invited talk
Reversing phase transitions in a nonlinear PT-symmetric dimer laser
Absar Hassan1 , Hossein Hodaei1 , M.-A Miri2 , Mercedeh Khajavikhan1 , Demetrios N. Christodoulides1
1
University of Central Florida (USA), 2 UT Austin (USA)
It is demonstrated that in the presence of gain and loss saturation effects, a PT-symmetric coupled arrangement is able to undergo a transition in reverse order to that expected from a linear model. This process was
observed in a set of semiconductor microring resonators by optically pumping one of the rings while keeping
the other in the dark. The laser modes gradually moved from a broken phase to the PT-symmetric regime.
14:40 : Invited talk
Optomechanical interactions in coupled resonators with unbalanced gain and loss
David Schoenleber, Ramy El-Ganainy, Alexander Eisfeld
Max Planck Institute (Germany)
We show that in non-Hermitian photonic molecules the maximum enhancement of optomechanical coupling
for stable steady-state solutions is achieved for unbalanced gain and loss profiles away from exceptional
points. Including the effect of gain saturation, we find regimes of self-sustained oscillations in the mechanical
displacement.
15:00 : Invited talk
Nanoscale Engineering Optical Nonlinearities and Nanoemitters
Yeshaiahu Fainman, M. Puckett, R. Sharma, J. Smalley, A. Pang, Q. Gu, A. El Amili, F. Vallini
University of California (USA)
The integration of a photonic information processing system onto a single chip requires great research effort
toward engineering metamaterials for miniaturization of the optical devices and circuits. We discuss nanoscale engineered optical nonlinearities for modulation and wave mixing of optical fields, and metal-dielectricsemiconductor nanostructures and compositions to construct nanoemitters for chip-scale integration.
15:20 : Invited talk
Extreme Wave Manipulation with Parity-Time Symmetric Metasurfaces
Romain Fleury1 , Dimitrios Sounas2 , Andrea Alu2
1
ESPCI Paris Tech (France), 2 The University of Texas at Austin (USA)
We study the unique wave manipulation capabilities of Parity-Time symmetric pairs of metasurfaces operated at exceptional point conditions. We demonstrate theoretically and experimentally the relevance of these
systems to induce wave phenomena typically observed with bulk metamaterials, including negative refraction, planar focusing, or cloaking, while avoiding their typical drawbacks, like sensitivity to losses, imperfect
isotropy, and fabrication complexity. We discuss the relations between bandwidth and stability, demonstrating
the practical potential of these systems for controlling waves in unprecedented ways.
15:40 : Invited talk
Optical and Electrical Control of NonHermition Silicon Nanophotonics
Mohamed Swillam
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The American University in Cairo (Egypt)
We propose novel techniques for introducing controlling the loss mechanism in nanophotonic systems. Different configurations have been exploited to electrically and optically control the loss mechanism in silicon
nanostructures at the Near and Mid infra red region.
14:00 - 16:00 — Coin
Session 3A22
SP10. Nanophotonics using Hybrid and New Plasmonic Materials
Organized by: Mohamed Swillam
Chaired by: Mohamed Swillam
14:00 : Invited talk
Observation of topologically protected edge states in arrays of evanescently coupled plasmonic waveguides
Stefan Linden, Felix Bleckmann, Andrea Alberti
Universitat Bonn (Germany)
Arrays of evanescently coupled dielectric-loaded SPP waveguides were used to implement the Su-SchriefferHeeger (SSH) model in a plasmonic system. The waveguide arrays were fabricated by negative-tone greyscale electron beam lithography. Excitation of a single waveguide in the bulk of the array resulted in discrete
diffraction. In contrast, topological edge states were observed at the boundaries between two topologically
distinct domains.
14:20 : Invited talk
All-Dielectric Metasurfaces for Structured Light Manipulation
Natalia Litchinitser1 , Mikhail I. Shalaev1 , Jingbo Sun1 , Alexander Tsukernik2 , Apra Pandey3
1
The State University of New York at Buffalo (USA), 2 University of Toronto (Canada), 3 CST - Inc. (USA)
We experimentally demonstrate an all-dielectric resonant metasurface with full 0-to-2pi phase control at near
infrared wavelengths. We design and fabricate dielectric nanoblocks-based metasurfaces for various functionalities, including high-efficiency beam deflector and light converter for generating optical vortex beams,
carrying an orbital angular momentum.
14:40 : Invited talk
Multiphysics simulation of tunable and frequency selective metamaterial absorbers
Amy Liu, Ahsan Alam, Jens Niegemann, James Pond
Lumerical Solutions-Inc. (Canada)
We consider microbolometer applications of metamaterial absorbers where multiphysics simulations are necessary to optimize the device performance. We present a workflow where optical simulations are used to
provide insight into the absorption mechanism, followed by electro-thermal transport simulations to assess
the subsequent thermal effects. Finally, we extend the methodology to include tunable graphene metamaterial
absorbers, where an additional electrical simulation is used to determine the change in the chemical potential
of the graphene prior to the optical simulation.
15:00 : Invited talk
Transfer printing approach to fabricate adaptable, self-standing and high efficiency polymer solar
cells
Silvia Colodrero1 , Pablo Romero-Gomez1 , Paola Mantilla-Perez1 , Jordi Martorell2
1
ICFO-The Institute of Photonic Sciences (Spain), 2 Universitat Politecnica de Catalaunya (Spain)
A significant step towards a low cost printable electronics with the potential to be incorporated in wearable
flexible devices may be achieved once such devices can be fabricated on any kind of material surface. Herein,
we present a new method based on a transfer printing approach to successfully detach from their original
substrate efficient polymer solar cells (PSCs). The ulterior incorporation of plasmonic nano-structures to the
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cell architecture will be discussed, too.
15:20 : Invited talk
Designing efficient hybrid plasmonics based durable nanolenses for ultrafast laser induced nanocavitation
Michel Meunier, Remi Lachaine, Christos Boutopoulos, Etienne Boulais
Polytechnique Montreal (Canada)
Irradiating plasmonics nanostructures in liquids with an ultrafast laser may lead to various highly localized
phenomena, including nanocavitation. We describe an in-silico rational design approach based on theoretical modeling that optimizes cavitation without breaking the nanostructure. As an example, we optimize the
core radius and the shell layer thickness of Au-SiO2 nanoshell nanostructures to minimize the laser fluence needed for nanocavitation, without altering the nanolens integrity. Our design approach is confirmed by
nanocharacterization and in situ bubble spectroscopy and imaging.
15:40 : Invited talk
Plasmonic materials for hot carrier devices
Jeremy Munday
University of Maryland (USA)
When high-energy photons are absorbed within a metal, they generate a distribution of carriers at a significantly higher effective temperature than the surrounding lattice, so-called ’hot carriers.’ Before cooling,
these carriers can traverse distances of tens of nanometers, enabling nanoscale plasmonic devices that take
advantage of this phenomenon. Here, I discuss our recent work using non-traditional metals for hot carrier
generation and the fabrication of detectors and energy converters that exploit this phenomenon.
14:00 - 15:45 — Blanca
Session 3A23
GEN1. Plasmonics and nanophotonics
Chaired by: Vivian Ferry
14:00 : Invited talk
Resonant nanophotonics with dielectric particles
A. Devilez, X. Zambrana-Puyalto, B. Stout, Nicolas Bonod
Aix marseille Universite (France)
Dielectric and metallic nanoparticles feature the ability to resonantly interact with light thanks to the excitation
of electromagnetic resonances. Here, we present our recent advances in the calculation of the Purcell factor
of silicon spherical cavities doped with emitters, and in the understanding of the link and differences between
surface plasmons and morphologic resonances. In particular, we show analytically how positive dielectric
particles can reproduce the electromagnetic response of plasmonic particles characterized by a negative
dielectric permittivity.
14:20 : Invited talk
Dynamic Plasmonics with Aluminum-Doped Zinc Oxide
Marcello Ferrera1 , Matteo Clerici2 , Nathaniel Kinsey3 , Amr Shaltout3 , Clayton DeVault3 , Lucia Caspani1 ,
Jongbum Kim3 , Rishad Kaipurath1 , Thomas Roger1 , Enrico Giuseppe Carnemolla1 , Daniele Faccio1 ,
Vladimir Shalaev3 , Alexandra Boltasseva3
1
Heriot-Watt University (United Kingdom), 2 University of Glasgow (United Kingdom), 3 Purdue University
(USA)
Novel aluminum-doped zinc oxide thin films have been synthesized with the double purpose of setting the
epsilon-near-zero point at telecom wavelengths and shortening the recombination time of optically generated
electron-hole pairs. When pumped, our material shows deep sub-picosecond recovery time, large relative
change of its refractive index, remarkable wavelength shift of the probe signal, and large dynamic tunability of
the crossover point. All these results are potentially impactful for many applications in active nano-photonics
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and tunable metamaterials.
14:40 : Invited talk
Dark chameleon nanomaterials for lasing and energy harvesting
Andrea Fratalocchi
KAUST (Saudi Arabia)
By using a biomimetic approach, we engineered an ultra-dark metamaterial that behaves as a black-body
at visible and near infrared wavelengths. This material is based on random aggregates of nanoparticles with
unconventional shape. Through experiments and theory, we show that such black material allows to develop a
new type of laser, which spontaneously generates single color pulses through a process of light condensation.
Energy harvesting applications of this nanomaterial are also discussed.
15:00 : Multipolar behavior of hollow plasmonic nanospheres: obvious or mysterious?
Ari Sihvola, Dimitrios C. Tzarouchis, Pasi Yla-Oijala
Aalto University (Finland)
Localized surface plasmon resonances appear on spherical subwavelength nanospheres around a frequency
for which the real part of the dielectric function is -2. For silver, this takes place at around 356 nm. As the size of
the sphere increases, this resonance will be red-shifted. However, regarding this shift, the size matters much
less than changes in shape and structure of the nanoscatterer. This presentation focuses on the resonance
structure of negative-permittivity scatterers, including multipoles and plasmon hybridization.
15:15 : Spatial non-locality and Landau damping in the dynamics of a quantum dot coupled to surface
plasmons
Alexei Vagov1 , I. A. Larkin2 , M. D. Croitoru3 , K. Keil1 , V. M. Axt1
1
Bayreuth University (Germany), 2 Minho University (Portugal), 3 Universiteit Antwerpen (Belgium)
We investigate the dynamics of a quantum dot coupled to surface plasmons on a metal surface, described
using a continuous media model with a non-local Lindhard dielectric response. The time evolution is found by
solving quantum dynamical equations in the rotating wave approximation. The solution demonstrates that the
non-locality in the dielectric response and the Landau damping notably change the system dynamics. The
time evolution reveals Rabi oscillations and follows a two-time relaxation pattern.
15:30 : The on and off of optical waves in planar multilayer stacks
Yikuan Wang
Yancheng Teachers University (China)
The transmittance of two planar multilayer stacks is computed. When 537nm red light impinges on the stacks,
the transmittance of Si3N4/Ag(46nm)/water stack vanishes, while the transmittance of Si3N4/Ag(46nm)/water(2nm)/Si3N4
is about 0.13 percent. If we combine these two stacks in parallel with each other, the composite structure can
turn photons on and off at far fields. This suggests that the beam size and intensity of SPCE rely on the choice
of dielectric materials.
14:00 - 15:30 — Sierra Nevada
Session 3A24
GEN2. Metamaterials and negative index materials
Chaired by: Andrei V. Kabashin
14:00 : Reconfigurable holographic generation of non-Hermitian and parity-time symmetric photonic
lattices
Choloong Hahn, Youngsun Choi, Jae Woong Yoon, Cha Hwan Oh, Seok Ho Song
Hanyang University (Korea)
Non-Hermitian optical systems require precisely controlled complex-valued optical potentials. Here, we generate such complex potentials on azo-dye-doped PMMA polymer thin film by using the reconfigurable holographic method. The purest exceptional point to our knowledge is generated and the skewness of eigenvectors
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of the complex potentials is characterized by observing the asymmetric diffraction. Also we present nonHermitian trajectories in skewed vector space which implying this approach should enable the observation of
non-Hermitian nature.
14:15 : A New Wideband Negative Refractive Index Metamaterial for Multi-band Operation
Sikder S. Islam, M. R. I. Faruque, M. T. Islam
Universiti Kebangsaan Malaysia (Malaysia)
A new wideband negative refractive index metamaterial for multi-band operation is introduced in this study.
Initially, a bare-H-shaped resonator was designed over the FR-4 substrate material. The refractive index curve
for the unit cell, displays more than 3 GHz negative real peak from C-band to some portion of X-band. The
proposed design also displays NRI property in the same frequency bands with wider bandwidth, when the
Rogers RT 3010 substrate material was employed instead of FR-4 substrate material.
14:30 : Transparent conductive oxide-based hyperbolic metamaterials for telecommunication wavelengths
Evgenij Travkin, Laura Orphal, Oliver Benson, Sergey Sadofev, Sascha Kalusniak
Humboldt-Universitat zu Berlin (Germany)
We report on realization of hyperbolic metamaterials operating at near- and midinfrared frequencies using
Ga-doped ZnO and Sn-doped In2O3 as metallic component. The hyperbolic dispersion is manifested by
occurrence of negative refraction. Control of the doping level allows for systematic adjustment of the frequency
range with hyperbolic dispersion from themid-infrared up to almost one micrometer. As a prerequisite, we
discuss the plasmonic properties of Ga-doped ZnO and Sn-doped In2O3.
14:45 : Magnetic Uniaxial Wire Medium
Tiago Morgado1 , Joao Costa2 , Mario Silveirinha1
1
Universidade de Coimbra (Portugal), 2 CST AG (Germany)
It is shown that a racemic array of helical-shaped metallic wires (magnetic wire medium) supports a nearly
dispersionless transverse electric (TE) mode with phase velocity almost independent of the wave vector. The
metamaterial may be characterized by an extreme magnetic anisotropy, and hence may be regarded as the
magnetic analogue of the standard wire medium formed by straight wires. It is demonstrated with full-wave
simulations that the magnetic wire medium enables channeling the near field of TE waves.
15:00 : Soliton-induced transparency in one-dimensional non linear Kerr/metamaterial heterostructures
Ernesto Reyes Gomez1 , Solange Bessa Cavalcanti2 , Luiz Eduardo Oliveira3
1
Universidad de Antioquia (Colombia), 2 Universidade Federal de Alagoas (Brazil), 3 Universidade Estadual
de Campinas (Brazil)
A theoretical study of non-Bragg gap solitons in one-dimensional non linear Kerrmetamaterial heterostructures is performed. A switching from states of no transparency in the linear regime to soliton-induced hightransparency states in the nonlinear regime is observed for various non-Bragg gaps. Soliton solutions are
shown to be robust with respect to absorption effects.
15:15 : Simultaneous Phase-Matching in Dirac-Cone-Based Zero-Index Metamaterials
Orad Reshef, Yang Li, Mei Yin, Lysander Christakis, Daryl Inna Vulis, Philip Camayd-Munoz, Shota
Kita, Marko Loncar, Eric Mazur
Harvard University (USA)
Zero-index metamaterials exhibit unique nonlinear properties. Using nonlinear scattering theory, we simulate
nonlinear signal generation in 2-dimensional zero-index metamaterials based on a photonic Dirac cone at the
I’ point. We observe phase-matching in multiple simultaneous directions, consistent with a refractive index of
zero.
Coffee Break and Exhibit Inspection
Session 3P2
Poster session VI
16:00 - 16:30
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P1: Multipolar decomposition of the field scattered by nonspherical and noncylindrical particles
Miguel Angel Gonzalez, Eugenio Rafael Mendez
CICESE (Mexico)
Employing a surface integral equation method we study the scattering of light by dielectric particles of various
shapes, and decompose the numerically calculated scattered field to determine the strength of the multipolar
fields excited in the particle.
P2: Plasmon-assisted complete optical absorption of ultrashort pulses in nanostructured graphene
Jose Ramon Martinez-Saavedra1 , Giulio Cerullo2 , Valerio Pruneri1 , Simon Wall1 , Javier Garcia de
Abajo1
1
ICFO-The Institute of Photonic Sciences (Spain), 2 Politecnico di Milano (Italy)
We study the possibility of using ultrashort light pulses together with the natural electronic relaxation mechanisms in graphene nanoribbons to tune their optical response, finding a redshift of the plasmon that these
structures support individually with increasing delay due to electron relaxation. We further discuss ribbon
arrays illuminated from the substrate under total internal reflection conditions, for which we predict complete
absorption for certain configurations.
P3: Vertical dimer antennas for microfluidic biosensing
Andreas Horrer, Katrin Krieg, Kathrin Freudenberger, Sabrina Rau, Lothar Leidner, Gunter Gauglitz,
Dieter Kern, Monika Fleischer
Eberhard Karls Universitat Tubingen (Germany)
In plasmonic nano-sensors, the sensitive dependence of the plasmon resonance wavelength on the refractive
index near the surface of an optical nano-antenna can be used as a detection principle. In the presented work,
lithographically fabricated arrays of vertical dimer antennas are integrated in microfluidic channels. The dimer
surfaces are functionalized by antibodies for the specific binding of target molecules from the liquid. Shifts of
the symmetric, antisymmetric and lattice modes of the nano-antennas are observed upon binding.
P4: The longitudinal magnetophotonic effect in a magnetoplasmonic crystal for magnetic field sensing
Aleksandr Rogachev1 , Mikhail Kozhaev2 , Petr Vetoshko3 , Sarkis Dagesian1 , Andrey Kalish1 , Anatoly
Zvezdin2 , Vladimir Belotelov1
1
Lomonosov Moscow State University (Russia), 2 The Russian Academy of Sciences (Russia), 3 Russian
Quantum Center (Russia)
Here we investigate the longitudinal magneto-photonic intensity effect (LMPIE) in a magnetoplasmonic structure of one dimensional gold grating and smooth iron-garnet film in regards to its application for a novel type
of magneto-optical sensor. The concept was developed theoretically and the samples were designed and
fabricated. The performed measurements of the LMPIE proved the ability of magnetic sensing.
P5: Detecting Variations in Serum Composition through Chiral Plasmonic Metafilms
Affar Shahid Karimullah1 , R. Tullius1 , C. Jack1 , M. Rodier1 , G. Cooke1 , V. M. Rotello2 , M. Kadodwala1
1
University of Glasgow (United Kingdom), 2 University of Massachusetts (USA)
The composition of blood serum is sensitive to the medical physiology of patients. Monitoring this composition
leads to diagnosis of diseases such as cancer, organ failure, and malnutrition. We present a new methodology
to detect changes in the globular proteins composition of blood serum utilizing chiral plasmonic metafilms.
This new technique provides a unique platform for rapid detection of disease and medical diagnosis through
optical detection of serum variations.
P6: Biological and chemical sensing within plasmonic nano-gaps
Anna Lombardi, Bart de Nijs, Setu Kasera, Daniel Sigle, Felix Benz, Rohit Chikkaraddy, Cloudy Carnegie, Jeremy Baumberg
Cambridge University (United Kingdom)
Plasmonic nanosensors for molecular optical detection have been widely investigated in the past, opening
unique possibilities for single molecule spectroscopy under ambient conditions. We present here the development of a practical implementation capable of low-cost robust real-time single-molecule sensitivity. Experimental SERS-based studies are shown where the strong localized field enhancement associated with
plasmonic nanoparticles is exploited for biomolecule detection and real-time chemical reaction tracking.
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P7: Template transfer for fabrication of freestanding gold nanohole membrane
Peipei Jia, Heike Ebendorff-Heidepriem
The University of Adelaide (Australia)
We developed a template transfer technique for fabrication of large-area freestanding gold nanomembrane
with an array of holes with nanoscale diameter and periodicity. The freestanding membrane shows enhanced
transmission compared to a membrane with the same features on a substrate. It is able to be attached on
arbitrary curved surfaces and used for patterning nanoparticles. This membrane can also be cut and folded
to 3D structures with dynamically and precisely controlled attitude.
P8: Biocompatible, Liposome-Based Surface Enhanced Raman Spectroscopy (SERS) Substrates
Ian Bruzas, William Lum, Sarah Unser, Laura Sagle
University of Cincinnati (USA)
In the Sagle group, we are working with novel liposome-based SERS substrates, in which probe molecules are
encapsulated in the liposome component, rather than tethered to or sandwiched between metallic surfaces.
Characterization of these substrates shows extremely high field enhancement of 108-109, and good substrate
fidelity and measurement reproducibility. The biocompatibility of these substrates is evaluated through the
incorporation and structural characterization horse heart cytochrome c.
P9: Excitation, Verification and Exploitation of Prohibited Modes of Dielectric Resonators
Amin Kianinejad, Zhi Ning Chen, Cheng-Wei Qiu
National University of Singapore (Singapore)
We present a microwave plasmon-based method to enable the excitation of the prohibited modes of dielectric
resonators (DRs). A meander transmission line is implemented to couple the microwave plasmon modes to a
DR. Resonating at the prohibited modes, the DR acts like parallel magnetic dipoles and with benefiting from
high efficient coupling, it make promises for application as antennas and filters in microwave communication
systems.
P10: Signal storage in tripod structure metamaterial
Sylwia Zielinska - Raczynska, David Ziemkiewicz
UTP University of Science and Technology (Poland)
The quantum optical phenomenon of electromagnetically induced transparency can be modeled in suitably
structured metamaterials, allowing for signal storage and manipulation. Classical description of the light stopping phenomenon facilitates the application of numerical methods typically used in simulation of wave propagation in metamaterials, giving new insight into the process.
P11: Controlled signal propagation in a metamaterial analogue of tripod EIT medium
Sylwia Zielinska - Raczynska, David Ziemkiewicz
UTP University of Science and Technology (Poland)
The metamaterials mimicking the electromagnetically induced transparency (EIT) are a new class of artificially structured materials which provide unprecedented opportunity tostudy EIT-related phenomena at room
temperature. The Finite Difference Time Domain (FDTD) method widely used in studies of wave propagation
in metamaterials can be extended to simulate complex EIT media such as a four level tripod, giving new
insight into the dynamics of such systems.
P12: Experimental Time-Varying Light Reflection in an Epsilon-Near-Zero Active Medium
Amr Shaltout1 , Matteo Clerici2 , Nathaniel Kinsey1 , Rishad Kaipurath3 , Jongbum Kim1 , Enrico Carnemolla3 ,
Daniele Faccio3 , Alexandra Boltasseva1 , Vladimir Shalaev1 , Marcello Ferrera3
1
Purdue University (USA), 2 University of Glasgow (United Kingdom), 3 Heriot-Watt University (United Kingdom)
We experimentally demonstrate photonic time reflection from an Aluminum-doped-ZnO layer with epsilonnear-zero (ENZ) operation at telecom wavelengths. The refractive index of the layer is temporally engineered
by an intense,
P13: Strong Coupling between Silver nanoshells and semiconductor quantum dots
Ning Zhou, Dongsheng Li, Deren Yang
Zhejiang University (China)
We report on the observation of Rabi splitting of approximately 123 meV in photoluminescence spectra as
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an indication of strong coupling between excited states of CdSe/ZnS quantum dots (QDs) and localized
surface plasmon modes of silver nanoshells under nonresonant nanosecond pulsed laser excitation at room
temperature. The strong coupling manifests itself as an anticrossing-like behavior of the two newly formed
polaritons when tuning the silver nanoshell plasmon energies across the exciton line of the QDs.
P14: Annealing Studies of Gold Plasmonic Nanostructured Arrays
Matthew Nicholson, Robert Bowman, Antony Murphy, Robert Pollard
Queen’s University Belfast (United Kingdom)
We investigate the plasmonic and physical properties of gold plasmonic nanostructured arrays when annealed
at various temperatures. The annealing of the gold nanorods yielded destruction of the array, however this was
avoided when embedded in an alumina template or encased with a nickel shell. The plasmonic resonance of
the gold was also enhanced in the alumina template.
P15: Active modulation of visible light with graphene-loaded ultrathin metal plasmonic antennas
Renwen Yu, Valerio Pruneri, Javier Garcia de Abajo
ICFO-Institut de Ciencies Fotoniques (Spain)
Electro-optical modulation of visible and near-infrared light is important for a wide variety of applications,
ranging from communications to sensing and smart windows. However, currently available approaches result
in rather bulky devices, suffer from low integrability, and can hardly operate at the low power consumption and
fast switching rates of microelectronic drivers. Here we show that planar nanostructures patterned in ultrathin
metal-graphene hybrid films sustain highly tunable plasmons in the visible and near-infrared spectral regions.
P16: New approaches in the design of quantum sources
Carlos Sanchez Munoz, Juan Camilo Lopez Carreno, Fabrice P. Laussy, Elena del Valle
Universidad Autonoma de Madrid (Spain)
We present a guiding principle to enhance quantum emitters or even bring them to new regimes of operation, that consists in exploiting their correlations in energy instead of indiscriminately averaging over the full
lineshape of emission. We propose an N-photon emitter based on the mere Purcell enhancement of such
processes and show how-using quantum light not only as the output but also as part of a device-one can
greatly increase its figures of merit.
P17: Comparison of four computational methods for computing Q factors and resonance wavelengths
in photonic crystal membrane cavities
Jakob Rosenkrantz de Lasson1 , Lars Hagedorn Frandsen1 , Sven Burger2 , Philipp Gutsche2 , Oleksiy
Kim1 , Olav Breinbjerg1 , Ole Sigmund1 , Jesper Mork1 , Niels Gregersen1
1
Technical University of Denmark (Denmark), 2 Zuse Institute Berlin (Germany)
We benchmark four state-of-the-art computational methods by computing quality factors and resonance wavelengths in photonic crystal membrane L5 and L9 line defect cavities. The convergence of the methods with
respect to resolution, degrees of freedom and number of modes is investigated. Special attention is paid to
the influence of the size of the computational domain. Convergence is not obtained for some of the methods,
indicating that some are more suitable than others for analyzing line defect cavities.
P18: Static and dynamic properties of hybrid magnetoplasmonic structures
Minh Ngoc Tran1 , Tom Seifert2 , Tymur Parpiiev1 , Gwenaelle Vaudel1 , Thomas Pezeril1 , D. Makarov3 , T.
Kampfrath4 , Vasily Temnov1
1
Universite du Maine (France), 2 Fritz Haber Institute (Germany), 3 HZDR Institute of Ion Beam Physics and
Materials Research (Germany), 4 Fritz-Haber Institut der MPG (Germany)
In this work, we study magnetoplasmonic as well as dynamic properties of bilayered ferromagnetic/nonmagnetic
heterostructure. While the ultrafast dynamics of this system have been actively investigated for spintronics and
acoustics, their magnetoplasmonic properties are rarely explored. We demonstrate that this bilayered structure exhibits magnetoplasmonics, and have potential to be an interesting target for further research, such as
nonlinear magnetoplasmonics or coupling with other ultrafast properties.
P19: Ultrafast spin-lattice coupling investigation in magnetostrictive Terfenol films by picosecond
shear acoustic pulses
Tymur Parpiiev1 , Arnaud Hillion2 , Vladimir Vlasov1 , Vincent Polewczyk2 , Vasily Temnov1 , Karine Dumesnil2 ,
Stephane Andrieu2 , Abdelmadjid Anane3 , Vitalyi Gusev1 , Thomas Pezeril1
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Universite du Maine (France), 2 Universite de Lorraine (France), 3 Thales (France)
We experimentally and theoretically demonstrate that, upon femtosecond demagnetization of magnetostrictives materials, the ultrafast release of the built-in strains generates ultrashort longitudinal and shear acoustic
pulses. These ultrashort acoustic pulses gather new crucial information on the spin-lattice coupling at ultrafast
timescale.
P20: Inverse Magneto-Optical Effects in Cylindrical Graphene-Coated Nanowires
Dmitry Kuzmin1 , Igor Bychkov1 , Vladimir Shavrov2 , Vasily Temnov3 , Hyong-In Lee4 , Jinsik Mok5
1
Chelyabinsk State University (Russia), 2 Kotel’nikov Institute of Radio Engineering and Electronics of RAS
(Russia), 3 Universite du Maine (France), 4 Seoul National University (Korea), 5 Sunmoon University (Korea)
We have investigated an inverse Faraday effect caused magnetic field distributions in cylindrical graphenecovered nanowire. The possibility of using of mode composition for controllable change in such distribution has
been shown. Results may be used for magnetic memory applications as well as for design of plasmonically
reconfigurable magnonic nanostructures.
P21: A flexible THz random reflector by 1 bit coding metamaterial
Biaobing Jin1 , Weiwei Liu2 , Tiejun Cui3
1
Nanjing UNiversity (China), 2 Nankai University (China), 3 outheast University (China)
We present here a flexible 1-bit coding metamaterial to shape the reflection and scattering of THz wave.
By adjuesting the sequences, this metamaterial can easily form different reflection and scattering pattern.
A wideband and low-reflection-and-scattering THz metamaterial is exampled to demonstrate the use and
ability of the coding metamaterial. Both the simulation and experiments show the reflectivity less than -10dB
is achieved in a wide frequency range of 0.8-1.4 THz and is insemsitive to the polarization of incident wave.
P22: Optimal and reproducible surface-enhanced Raman scattering with precisely-controlled nanometerscale gaps
Joel M. Katzen, Antony Murphy, Robert Pollard, Fumin Huang
Queen’s University Belfast (United Kingdom)
We report achieving optimal and reproducible surface-enhanced Raman scattering (SERS) with plasmonic systems of nanoparticle-on-mirror geometry. Such systems produce robust nanometer-scale interparticle
gaps that can be precisely controlled with dielectric spacing layers. A systematic investigation is carried out
with a variety of nanoparticles, excitation wavelengths and molecules, which demonstrates that optimal and
reproducible SERS is achievable at separations around 1 nm. The results are significantly important for developing ultrasensitive molecular sensors and many other plasmonic applications, including nonlinear effects.
P23: Coplanar isolator based on gap plasmon resonators
E. Djekounyom, E. Verney, D. Pietroy, J. P. Chatelon
Universite de Lyon (France)
The isolation function in coplanar technology can be carried out by a CPW line with an assymetric geometry,
in which one of the ground planes is engraved by an array of gaps with micrometric width. Such a structure
shows a good isolation in the X an Ku bands, about 50 dB, and relatively weak insertion losses. The influence
of the parameters of the array over device performances is explored.
P24: The Exceptional Point in Plasmonic Waveguide Arrays
Shaolin Ke, Bing Wang, Peixiang Lu
Huazhong University of Science and Technology (China)
We investigate the exceptional points (EPs) in non-parity-time-symmetric plasmonic waveguide arrays composed of monolayer graphene sheets. The intrinsic loss of graphene deforms the diffraction relation in the
vicinity of the Dirac point. The optical EPs emerge as the wave vectors of the propagating and radiation
modes coalesce.
P25: High efficiency, ultra-broadband fiber-to-chip coupler based on subwavelength gratings
Alejandro Sanchez-Postigo1 , Alejandro Ortega-Monux1 , Jose Manuel Luque-Gonzalez1 , Carlos AlonsoRamos2 , Robert Halir1 , Jens Schmid3 , Pavel Cheben3 , Juan Gonzalo Wanguemert-Perez1 , Inigo MolinaFernandez1
1
Universidad de Malaga (Spain), 2 Universite Paris Sud (France), 3 National Research Council (Canada)
A new grating coupler is presented to overcome the natural limitation in bandwidth that conventional grating
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couplers exhibit. By using subwavelength structures, the effective index of the grating waveguide can be
engineered to enlarge the bandwidth. Our proposed grating coupler achieves a 3-dB bandwidth of about 200
nm. A sub-decibel coupling efficiency (below -0.3 dB) is accomplished.
P26: On leakage losses in subwavelength grating devices
J. Dario Sarmiento-Merenguel1 , Alejandro Ortega-Monux1 , Jean-Marc Fedeli2 , J. Gonzalo WanguemertPerez1 , Carlos Alonso-Ramos3 , Elena Duran-Valdeiglesias3 , Pavel Cheben4 , Inigo Molina-Fernandez1 ,
Robert Halir1
1
Universidad de Malaga (Spain), 2 CEA - LETI (France), 3 Universite Paris Sud (France), 4 National Research
Council (Canada)
SWG waveguides are lossless in theory, but implementations in the SOI platform have shown that they can exhibit additional losses, coming from the leakage to the substrate. This work provides the first thorough analysis
of leakage losses in SWG waveguides, establishing a direct relation between the synthesized effective index
of the guided mode and its leakage losses. This relation, numerically and experimentally demonstrated, is
shown to be independent of the geometrical parameters that define the SWG waveguide.
P27: Transmitting and reflective subwavelength azimuthal micropolarizers
Sergey S. Stafeev1 , Anton G. Nalimov1 , Liam O’Faolain2 , Maria V. Kotlyar1 , Victor Kotlyar1
1
Samara State Aerospace University (Russia), 2 University of St. Andrews (United Kingdom)
We have investigated two binary subwavelength grating-micropolarizers that operate in reflection and transmission modes and transform linearly polarized light to the azimuthally polarized beam.
P28: Dielectric on-chip diffraction gratings for surface plasmon polaritons
Evgeni A. Bezus, Leonid L. Doskolovich, Victor A. Soifer
Samara State Aerospace University (Russia)
On-chip diffraction gratings for surface plasmon polaritons (SPP) consisting of a periodic set of dielectric
ridges located on the metal surface are studied. Simulation results demonstrate that the SPP diffraction on
an on-chip grating with parasitic scattering suppression is very close to the diffraction of a TE-polarized plane
wave on a conventional grating. Presented results can be used for the design of efficient 2D optical elements
for steering SPP propagation.
P29: On-chip Bragg gratings for Bloch surface waves
Leonid L. Doskolovich, Evgeni A. Bezus, Dmitry A. Bykov
Samara State Aerospace University (Russia)
On-chip Bragg gratings (BG) and phase-shifted Bragg gratings (PSBG) for Bloch surface waves (BSW) propagating along the interface between a one-dimensional photonic crystal and a homogeneous medium are
theoretically and numerically studied. Rigorous simulation results demonstrate the possibility of using the proposed on-chip PSBG for temporal and spatial differentiation of BSW pulses and beams. The obtained results
can find application in the design of the prospective on-chip systems for all-optical analog computing.
P30: Optical negative forces on particles near plasmonic interfaces
Sergey Sukhov1 , Mihail Petrov2 , Andrey Bogdanov2 , Alexander Shalin2 , Aristide Dogariu1
1
University of Central Florida (USA), 2 ITMO University (Russia)
We demonstrate that gradientless light fields can exert pulling force on a dipolar particle located on a plasmonic interface. The forces acting against the propagation of light arise due to the amplification of the photon
linear momentum when surface plasmon polaritons are excited at the plasmonic interface. This effect can be
utilized for effective optomechanical control of nano-objects over metallic surfaces.
P31: Comparing the Potential of Gallium and Bismuth Nanostructures for Switchable Optical Filtering
Alexander Cuadrado, Johann Toudert, Rosalia Serna
CSIC (Spain)
Using numerical simulations, we compare the performance of plasmonic gallium and bismuth nanostructures
for switchable optical filtering. They present a spectrally localized optical extinction that shifts upon solid-liquid
transition, thus allowing a relevant extinction contrast at selected photon energies that depend on their nature
and geometry.
P32: Photocatalysis through anisotropic plasmonic nanoparticles with hot spots in Au-TiO2 nanoar178
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chitectures
Miguel Comesana-Hermo1 , Ana Sousa-Castillo1 , Benito Rodriguez-Gonzalez1 , Moises Perez-Lorenzo1 ,
Xiang-Tian Kong2 , Zhiming Wang3 , Alexander O. Govorov2 , Miguel ingel Correa-Duarte1
1
Universidade de Vigo (Spain), 2 Ohio University (USA), 3 University of Electronic Science and Technology
(China)
The present work reports an experimental and theoretical study on the critical influence that shape anisotropy
of gold nanoparticles exerts on the photocatalytic performance of Au-TiO2 nanoarchitectures.
P33: Semiconductor Nanowire antennas
Jaime Gomez Rivas1 , D. van Dam2 , J. E. M. Haverkort2 , E. P. A. M Bakkers2 , D. Romero Abujetas3 , J.
A. Sanchez Gil3
1
Dutch Institute for Fundamental Energy Research (The Netherlands), 2 Eindhoven University of Technology
(The Netherlands), 3 CSIC (Spain)
We demonstrate experimentally and describe theoretically the strong directional emission and absorption
of light by III-V semiconductor nanowires mediated by the resonant coupling to guided and leaky modes
in the cylindrical structure. The coupling to these eigenmodes of the nanowires depends strongly on their
diameter and length, which opens a rich spectrum of possibilities for the control of the direction, efficiency
and polarization of the emission and absorption of light.
P34: Reshaping Electromagnetic Emissions with Meta-substrate based on Spoof Plasmons
Yao Gao, Agnes Maurel, Abdel Ourir
Institut Langevin (France)
We investigate the efficiency of a metasurface supporting spoof plasmons to control the electromagnetic
emission of a radiating element. The three dimensional metasurface is made of an array of metallic grounded
rods and it is used as the substrate of a printed antenna. We show how an efficient and directive emission
with low side lobe levels and backward radiation. And also, field distribution excited by evanescent wave in
low frequency is studied.
P35: Orthogonally polarised modes sharing a single metasurface for dual-pol antennas
Amagoia Tellechea1 , Francesco Caminita2 , Enrica Martini2 , I. Ederra1 , Juan Carlos Iriarte1 , Ramon
Gonzalo1 , Stefano Maci2
1
Public University of Navarra (Spain), 2 University of Siena (Italy)
This paper presents a new approach for the design of a metasurface antenna capable to provide dual circularly polarized broadside radiation. In the configuration, two decoupled surface waves of transverse electric
and transverse magnetic types are excited balanced in amplitude, and propagate in the structure with the
same phase velocity. Surface impedance characterization allows field radiation towards broadside direction.
Two orthogonal modes in phase quadrature are employed to excite structure, obtaining both right-hand or
left-hand circular polarization.
P36: Multimodal nanoantennas for engineering quantum light
Karolina Slowik1 , Jakob Straubel2 , Rafal Sarniak1 , Robert Filter3 , Carsten Rockstuhl2
1
Nicolaus Copernicus University (Poland), 2 Karlsruhe Institute of Technology (Germany), 3 Friedrich Schiller
University Jena (Germany)
Integration of optical nanoantennas holds promise for a significant boost of performance of quantum emitters
as nonclassical light sources. Moreover, nanoantennas can be exploited to engineer the emission characteristics, or even quantum properties of light, such as statistics or degree of entanglement. These applications
are here proposed and discussed within the cavity quantum electrodynamics (cQED) framework. It allows
to account for nanoantennas, whose spectra are characterized with multiple resonances, coupled to two- or
multilevel quantum emitters.
P37: Band stop filters for THz waves based on dielectric metasurfaces
Jose Francisco Algorri, R. Vergaz, V. Urruchi, J. M. Sanchez-Pena, B. Garcia-Camara
Carlos III University of Madrid (Spain)
In this work, we propose and design a dielectric metasurface based on Silicon (Si) subwavelength pillars.
A previous study of the directional conditions of the scattering is carried out in order to obtain the optimum
sizes. The metasurface can operate as a band-stop filter to realize blocking back THz waves in the designed
band range, while transparent transmission over the rest of the range.
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P38: All-dielectric bianisotropic metasurface for microwave applications
Mikhail Aleksandrovich Odit1 , Polina Kapitanova1 , Yuri Kivshar2 , Pavel Belov1
1
ITMO University (Russia), 2 Australian National University (Australia)
All-dielectric bianisotropic metasurface for microwave applications has been designed, fabricated and experimentally investigated in the frequency range 4-9 GHz. Radar cross-section of the metasurface unit cell posses
different ratio for forward/backward scattering depending on plane wave excitation propagation direction. At
the frequency 7 GHz the metasurface transmission characteristics exhibit a 2pi phase change in the reflection
spectrum while the measured amplitude of the reflection coefficient is close to 1.
P39: Wavelength dependence of longitudinal photo-induced voltage in nano-porous gold thin film in
visible frequencies
Marjan Akbari, K. Iwata, Teruya Ishihara
Tohoku University (Japan)
We report wavelength dependence of photo-induced voltage in nanoporous gold (NPG) thin films induced
by obliquely incident laser beam radiation in visible frequencies on the film for longitudinal configuration. The
results show that for 450 - 500 nm p- polarized incedent light, voltage is negative and for 500 - 600 nm its sign
changes to positive. The origin of this sign change may be due to change in dielectric constant of the film and
surface plasmon polariton excitation by p-polarized light.
P40: Hyperbolic-Metamaterial Integrated Devices for Efficient Infrared Rectification
Pai-Yen Chen
Wayne State University (USA)
We discuss possibility of rectifying infrared radiation using metal-insulator-metal tunneling nanodiodes, engineered as hyperbolic-metamaterials (HMMs). We demonstrate that responsivity of HMM-based devices can
reach tens of mA/W in mid-infrared region, which may find interesting applications in photodetection and
energy harvesting.
P41: Broadband Enhancement or Inhibition of Spontaneous Photon Emission in the Vicinity of NanometerSized Silicon Resonators
Dorian Bouchet1 , Mathieu Mivelle1 , Julien Proust2 , Bruno Gallas3 , Igor Ozerov2 , Maria F. Garcia-Parajo4 ,
Yannick De Wilde1 , Nicolas Bonod2 , Valentina Krachmalnicoff1 , Sebastien Bidault1
1
ESPCI Paris (France), 2 Aix-Marseille University (France), 3 Sorbonne University (France), 4 ICFO-Institut de
Ciencies Fotoniques (Spain)
Substituting noble metals for high-index dielectrics has been proposed as an alternative strategy to design
optical nanoantennas while circumventing the ohmic losses of plasmonic materials. In this report, we experimentally demonstrate that silicon resonators can enhance or inhibit the photon emission dynamics of
fluorescent molecules. Using scanning probe microscopy, we analyze the near-field interaction between a
fluorescent nanosphere and silicon nanoparticles, and highlight how dielectric nanoantennas increase the
far-field collection of emitted photons, in excellent agreement with numerical simulations.
P42: Composite interference based plasmonic switches and logical gates
Yulin Wang, Tao Li, Shining Zhu
Nanjing University (China)
Full optical switch is an important element in developing photonic on-chip integration. In this talk, compact
switches were proposed and demonstrated based on the interference of surface plasmons polaritons (SPP)
on free metal surface and in waveguides. Additionally, an interesting composite interference was observed
and discussed in the waveguide device. By cascading two kinds of different interference components, a novel
interference phenomenon of phase-insensitivity was finally achieved.
P43: Magneto-chiral Effect in Hybrid Plasmonic Nanostructures
Marion Rodier, Christopher Kelly, Affar Karimullah, Calum Jack, Ryan Tullius, Malcolm Kadodwala
University of Glasgow (United Kingdom)
The magneto-chiral effect occurs in magnetic chiral media, and can be detected by use of polarised light.
Although this effect is of interest in the study of the light matter interaction, it has not been studied in depth
because of the important magnetic field needed to observe it, and the weakness of the effect. Hybrid plasmonic nanostructures were used to detect a magneto chiral effect, at low magnetic field.
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P44: Selective detection of elevated IgG in human blood serum using surface modified chiral plasmonic metamaterials
Ryan Tullius1 , A. S. Karimullah1 , C. Jack1 , M. Rodier1 , G. Cooke1 , V. M. Rotello2 , M. Kadodwala1
1
University of Glasgow (United Kingdom), 2 University of Massachusetts (USA)
Protein levels in human serum are an attractive target for early diagnostics and sensors due to the direct
correlation of these protein concentrations to diseases/infections. Due to human serum containing more than
20,000 different proteins, detecting a change in these levels can be challenging. Here, we present a method to
selectively detect a physiologically relevant increase in the Immunoglobulin G concentration in human blood
serum.
P45: Revival of bistable state near the exceptional point of a non-Hermitian photonic molecule
Ke-jia Zhu, Yong Sun, Jie Ren, Haitao Jiang, Hong Chen
Tongji University (China)
Dissipation always wasting energy, reducing field intensity or increasing threshold in conventional system,
however which can turn losses into gain in no-Hermitian systems. Here, we investigate bistable state by
manufacturing such a no-Hermitian photonic molecule which own an exceptional point (EP). The observation
show bistable state of this system from suppression to revival only by adding loss while in the vicinity of the
EP.
P46: Controlling the tunability of graphene in bridged and unbridged nano-disk dimers
Gilles Rosolen, Bjorn Maes
University of Mons (Belgium)
Graphene is a promising material for sensor applications thanks to its strong light-matter interaction and its
high tunability by doping. We investigate varyingly doped graphene nano-disks in a dimer configuration and
demonstrate a complex absorption response arising from hybridization of dark modes. The resonances can
be further enhanced and sharpened when a graphene ribbon links the two dimers, with a tunable resonance
wavelength enabled by the junction doping.
P47: Precise Nanoparticle Localization using Complex Spatial Modes of Light
Ankan Bag, Martin Neugebauer, Pawel Wozniak, Gerd Leuchs, Peter Banzer
Max Planck Institute for the Science of Light (Germany)
High refractive index materials such as silicon are of paramount importance due to their rich spectral properties and their application in directional coupling of electromagnetic wave. This directionality can be enhanced
remarkably by taking advantage of the interference of electric and magnetic resonances of the scatterer. Based on this strong directional light emission, we now present a novel position sensing technique, enabling
Angstrom localization accuracy (lateral), which can find applications in nanometrology and super-resolution
microscopy techniques.
P48: Controllable excitation of a high refractive-index dielectric nanoparticle using a tightly focused
vector beam
Pawel Wozniak, Gerd Leuchs, Peter Banzer
Max Planck Institute for the Science of Light (Germany)
Non-paraxial propagation of a laser beam allows for creating highly confined non-uniform fields. In this context, tightly focused cylindrical vector beams are experimentally examined as versatile tools for the realization
of multiple excitation schemes used to study a single high refractive-index dielectric nanosphere.
P49: Quantum Many-Body Theory of Nonlocal Electromagnetic Response at Metallo-Dielectric Interfaces
Fouad Ballout, Joachim Hamm, Ortwin Hess
Imperial College London (United Kingdom)
We present on the basis of the jellium model a quantum field theory of surface-plasmon polaritons (SPPs) in
which they emerge as extended objects as a result of an inhomogeneous condensation of bosons around a
topological singularity describing the surface. The benefit of this approach lies in relating the electromagnetic fields belonging to such a macroscopic quantum state with the surface topology and nonlocal response
function (i.e. the retarded photon self-energy) of the delimited electron gas sustaining that state.
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cal coupling in lossy coupled oscillators
Simone Zanotto1 , Alessandro Tredicucci2
1
Consiglio Nazionale delle Ricerche (Italy), 2 Universita di Pisa (Italy)
We discuss a model describing key features concerning the lineshapes and the coherent absorption conditions in Fano-resonant dissipative coupled oscillators. The model treats on the same footing the weak and
strong coupling regimes, and includes the critical coupling concept, hence enabling to explore the borders
between these regimes, usually considered as separate frameworks. The model has wide generality and can
be adapted to various fields like nanophotonics, plasmonics, and optomechanics.
P51: Plasmon based three-layer antireflection coating for infrared photodetectors
Jun Oh Kim1 , Jiyeon Jeon1 , Khagendra Bhattarai2 , Jiangfeng Zhou2 , Augustine Urbas3 , Zahyun Ku3 ,
Sang Jun Lee1
1
Korea Research Institute of Standards and Science (Korea), 2 University of South Florida (USA), 3 Air Force
Research Laboratory (USA)
At surface plasmon (SP) resonances, we experimentally and theoretically investigate the enhanced transmission by the metamaterial based antireflection coating that is composed of the metallic disk array (MDA) atop
the dielectric film. The optimized condition (zero reflectance) is analyzed by using a three-layer model and
calculated reflection using matrix method which is good correspondence with measured transmission results.
It is possible to multifunctional infrared sensor as new mechanism to the enhanced transmission application.
P52: Broadband polarization conversion in plasmonic metasurfaces with symmetry breaking
Shengyan Yang, Zhe Liu, Xiaoxiang Xia, Junjie Li, Changzhi Gu
Chinese Academy of Sciences (China)
We propose and demonstrate ultrathin, efficient and broadband single-layer metasurface-based polarization
converters in transmission mode at telecommunication wavelengths. Combining with the broadband operation
and improved linear polarization conversion efficiency, the metasurface has opened a new avenue for creating
ultrathin, broadband, and high performance polarization converters.
16:30 - 18:30 — Malaga
Session 3A25
SP26. Advances in plasmonic and metamaterial devices
Organized by: Renmin Ma and Junsuk Rho
Chaired by: Renmin Ma and Junsuk Rho
16:30 : Invited talk
Wavefront shaping through emulated curved space
Chong Sheng1 , Rivka Bekenstein2 , Hui Liu1 , Shining Zhu1 , Mordechai Segev2
1
Nanjing University (China), 2 Technion (Israel)
We propose wavefront shaping by exploiting General Relativity effects and concepts of curved space in waveguide settings. We use this technique to construct a very narrow non-diffracting beam and also design
shape-invariant accelerating beams propagating along arbitrary trajectories. Finally, we demonstrate the phenomenon of Einstein’s Rings, and find that the diameter of the rings in our setting follows exactly Einstein’s
1936 formula.
16:50 : Invited talk
Quantum plasmons in nanoscale waveguides
Xi-Feng Ren, Yong-Jing Cai, Ming Li, Chang-Ling Zou, Xiao Xiong, Hua-Lin Lei, Bi-Heng Liu, Guo-Ping
Guo, Guang-Can Guo
University of Science and Technology of China (China)
Here we introduce two works on quantum plasmonics: high-visibility on-chip quantum interference of single
surface plasmons and transmission of quantum polarization entanglement in a nanoscale hybrid plasmonic
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waveguide. Our works can bridge nanophotonics and quantum optics.
17:10 : Invited talk
Scalable Nanoarchitecturing for Commercially-feasible Applications in Electronics, Photonics, and
Metastructures
Jong G. Ok
Seoul National University (Korea)
We will discuss how nanomaterials/nanostructures and nanopatterning methodologies can be mingled with
each other towards more scalable and multidimensional nanoarchitectures.
17:30 : Invited talk
KERR Effect in Hybrid Plasmonic Waveguides
Stefano Palomba, F. J. Diaz, G. Li, C. Martijn de Sterke, B. T. Kuhlmey
The University of Sydney (Australia)
We report a detailed theoretical study of a Kerr effect in a hybrid plasmonic waveguide (HPWG), constituted
by a nonlinear dielectric material, sandwiched between a metallic layer and a Si nanowire.
17:50 : Invited talk
Metasurfaces for refractomatric sensing and advanced functionalities
Ruggero Verre, M. Svedendahl, T. Antosiewicz, M. Kall
Chalmers University of Technology (Sweden)
We report on several types of metasurfaces and advances in terms of nanofabrication, characterization and
applications. Various metallic nanoparticles were produced and we introduce a novel phase and polarizationcontrast method with sensitivities comparable to state-of-the-art label free sensors. We also demonstrate
directionality and articficial magnetism, which is induced by proper engineering of the diffraction limited elements composing the metasurface.
18:10 : Invited talk
Hybrid graphene-plasmonic antenna arrays for the fast detection of terahertz quantum cascade lasers
Riccardo Degl’Innocenti, David Jessop, Long Xiao, Stephen Kindness, Yuan Ren, Hungyen Lin, Axel
Zeitler, Philipp Braeuninger-Weimer, Stephan Hofmann, Harvey Beere, David Ritchie
University of Cambridge (United Kingdom)
We present an integrated room temperature terahertz detector based on asymmetrically doping interdigitated
bow-tie antennas that are in contact with graphene which shunt the two arms. The device was tested with a
quantum cascade laser emitting around 2 THz yielding a responsivity of 0.5 uA/W, and implemented in an
imaging system.
16:30 - 18:30 — Ronda
Session 3A26
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Jonathan Fan
16:30 : Invited talk
Network metamaterials: An alternative platform for optical materials
Henning Galinski1 , Andrea Fratalocchi2 , Federico Capasso3
1
ETH Zurich (Switzerland), 2 KAUST (Saudi Arabia), 3 Harvard University (USA)
Traditionally, the design of metamaterials has been inspired by the assembly of periodically spaced building
blocks. Here, I will discuss a new class of optical materials, dubbed network metamaterials. The key design
principle is a sub-wavelength network with functional connectivity. We demonstrate that network metamaterials harbor unexpected optical properties, such as structural color. We discuss the physical origin of these
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optical properties and point out several strategies to deterministically control them.
16:50 : Invited talk
Conformal Boundary Optics
Jonathon Yi Han Teo1 , Liang Jie Wong1 , Carlo Molardi1 , Patrice Genevet2
1
A*STAR (Singapore), 2 CNRS- centre de recherche sur l’hetero-epitaxie et ses applications (France)
Rapid developments in the emerging field of stretchable and conformable photonics necessitate analytical
expressions for boundary conditions at metasurfaces of arbitrary geometries. Here, we introduce the concept
of conformal boundary optics, a design theory that determines the optical response for designer input and
output fields at interfaces of arbirary shapes.
17:10 : Invited talk
Metasurface for the creation of surface plasmon vortex and towards multi-functional optofluidics
C.-Y. Lin, C.-F. Chen, C.-T. Ku, C.-B. Huang
National Tsing Hua University (Taiwan)
The generation of optical vortices using plasmonics has drawn immense recent research attentions. However,
in the past, these near-field vortices carrying orbital angular momentum were excited by waves that carry spin
angular momentum, i.e., circularly polarized waves. In this talk, we will introduce the advantage of a designed
metasurface, in which vortices could be created under linearly polarized excitations. We will also illustrate the
applications of such novel device for multiple selective controls to micro-particles.
17:30 : Invited talk
Electrically Tunable Metasurface Absorber
Juhyung Kang, Junghyun Park, Mark L. Brongersma
Stanford University (USA)
We propose an electrically tunable optical absorber in the infrared regime by using the indium-tin-oxide (ITO)
as the electrically tunable material in the metal-insulator-metal cavities which support localized surface plasmons. The depletion and accumulation operations at the epsilon-near-zero (ENZ) wavelength regime of the
ITO give rise to dramatic changes in the carrier concentration in the ITO, which in turn lead to unprecedentedly
substantial changes in the optical absorption.
17:50 : Invited talk
Dynamics of Non-Linear Hybrid ITO-Plasmonic Metasurfaces
Miguel Navarro-Cia1 , Heykel Aouani2 , Mohsen Rahmani3 , Stefan A. Maier2
1
University of Birmingham (United Kingdom), 2 Imperial College London (United Kingdom), 3 Australian National University (Australia)
Optical nonlinearities are intrinsically weak, but can be strengthened in scenarios that provide field enhancement mechanisms. Hybrid structures combining the high inherent material nonlinearity of semiconductors
along with plasmonic-induced strong fields are promising platforms for on-chip nonlinear optics. However,
due to their complexity, understanding the mechanisms involved is sometimes challenging. Here, the spectral response of metal dimers loaded with an ITO nanoparticle at their gap is investigated numerically and
experimentally to provide an understanding and design rules.
18:10 : Invited talk
Plasmonic Metasurfaces for the Near-Field Directional Control of Light Emission
Roberto Paiella, Leonard Kogos, Jeff DiMaria
Boston University (USA)
The use of plasmonic metasurfaces to control the radiation properties of nearby emitters is investigated with
two related approaches. First, off-axis unidirectional beaming is demonstrated using an array of asymmetric
metallic nanoparticles coupled to an ultrathin metal film. Second, light emission near a gradient metasurface
is studied numerically, showing that geometrically tunable directional radiation patterns can be obtained at
highly enhanced emission rates.
16:30 - 18:25 — Nerja
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Session 3A27
SP19. Nanophotonics, optical forces and the momentum of light
Organized by: Philippe Tassin and Vincent Ginis
Chaired by: Philippe Tassin and Vincent Ginis
16:30 : Invited talk
Van der Waals forces at surfaces
J. Pendry, K. Sasihithlu
Imperial College London (United Kingdom )
A hot surface can lose heat by radiation but if in close proximity to another surface, phonons can also tunnel across the gap mediated by van der Waals forces. We have developed a new formulism for calculating
this contribution to heat flow and will compare to other mechanisms such as near field heat transfer and
conventional thermal radiative cooling.
16:50 : Invited talk
Measurement of Sub-femtonewton forces at the thermal limit in fluid
Lulu Liu1 , Simon Kheifets1 , Vincent Ginis2 , Federico Capasso1
1
Harvard University (USA), 2 Vrije Universiteit Brussel (Belgium)
We present the first measurements of sub-femtonewton forces in fluid. The measurements, which we show
to be limited only by room temperature thermal noise, are about two orders of magnitude more sensitive than
has been previously reported. We apply our technique to measure the optical force on a microsphere in the
presence of an evanescent wave. The results are in quantitative agreement with Mie theory predictions and
the first such confirmation of its kind.
17:10 : Invited talk
Significance of the electromagnetic spin and orbital-angular-momentum conservation: The optical
torque
Manuel Nieto-Vesperinas
CSIC (Spain)
We put forward a scattering component of the optical torque exerted on a dipolar particle which has been
overlooked in all research so far. It cancels the usually called extinction torque, which was often considered to
be responsible for the particle spinning. Also we show the contribution of the spatial structure and polarization
of the wave to this torque, unknown to this date.
17:30 : Invited talk
Tunable and nonlinear metamaterials made of superconducting thin films
Cihan Kurter1 , S. M. Anlage2
1
Missouri University of Science and Technology (USA), 2 University of Maryland (USA)
Metamaterials made of thin-film superconducting resonators are rich playground for not only studying fundamental electrodynamics of superconductors but also novel applications. Here, we present an overview of
the research on tunable and non-linear superconducting metamaterials with various functionalities such as
artificial magnetism and electromagnetically induced transparency.
17:50 : Invited talk
Polarization Engineering in Photonic Crystal Waveguides for Spin-Photon Entanglers
Andrew Young1 , Arthur Thijssen1 , Daryl Beggs1 , Petros Androvitsaneas1 , Kobus L Kuipers2 , John
Rarity1 , Stephen Hughes3 , Ruth Oulton1
1
University of Bristol (United Kingdom), 2 FOM institute AMOLF (The Netherlands), 3 Queens University (Canada)
We present our work on QD spin emitters in photonic crystal waveguides, demonstrating that by placing a QD
spin emitter at a C-point polarization singularity, one may achieve perfect unidirectional emission of a photon
from the emitter, whose direction is determined by the spin direction.
18:10 : Manipulation of optical gradient forces for reconfigurable and selective assembly of gold na-
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noplates
Delphine Coursault, Ying Bao, Patrick Figliozzi, Zijie Yan, Norbert F. Scherer
The University of Chicago (USA)
We investigate directed-assembly of plasmonic gold nanoplates in a tightly focused beam. We demonstrate
the reconfigurability of the assembly by altering the applied phase gradient via holographic beam shaping.
The slower motion of the nanoplates as compared with plasmonic nanospheres allows for a precise study of
their assembly/disassembly dynamics. We witness a strong correlation of their motion far from the center of
the trap shedding light on future opportunities to prevent break-down of the optical matter assembly.
16:30 - 18:45 — Antequera
Session 3A28
SP28. On-chip Integrated Quantum Photonics
Organized by: Luca Sapienza and Alessandro Casaburi
Chaired by: Luca Sapienza and Alessandro Casaburi
16:30 : Invited talk
Fundamental limitations to the coherence of single-photon sources due to phonon scattering
Jesper Mork, Dara McCutcheon, Jake Iles-Smith, Niels Gregersen
Technical University of Denmark (Denmark)
We discuss the effect of phonons on the coherence of single-photon sources. In particular, the role of
non-Markovian effects, arising from the colored nature of the phonon reservoir, is elucidated. The photonindistinguishability of cavity- and waveguide-based sources is compared.
16:50 : Invited talk
A heterogeneous III-V / Si3N4 quantum photonic integration platform
Marcelo Davanco1 , Jin Liu1 , Chen-Zhao Zhang2 , Liu Liu2 , Kartik Srinivasan1
1
Center for Nanoscale Science and Technology (USA), 2 South China Normal University (China)
We develop a heterogeneous III-V/Si3N4 integration platform for photonic integrated circuits incorporating
on-chip, InAs quantum dot-based single-photon sources.
17:10 : Invited talk
Heterogeneous integration and trimming of complex silicon photonic circuits
Graham J. Sharp1 , Laura Meriggi1 , Charalambos Klitis1 , Barry M. Holmes1 , Ying Ding1 , Stuart May1 ,
Giuseppe Cantarella2 , Michael J. Strain2 , Marc Sorel1
1
University of Glasgow (United Kingdom), 2 University of Strathclyde (United Kingdom)
The rapid increase in the complexity of integrated photonic circuits demands the development of new tools
and technologies for performance monitoring and device integration. We present recent advances in postfabrication trimming of photonic circuits through local laser annealing and transfer printing for bonding III-V
material platelets to silicon chips.
17:30 : Invited talk
Quantum nanophotonics: controlling spins with single photons on-a-chip
Edo Waks, Shuo Sun, Tao Cai, Ranojoy Bose, Hyochul Kim, Glenn S. Solomon
University of Maryland (USA)
I will describe our recent work on coupling spin in single quantum dots to photonics using integrated nanophotonic devices. We implement a quantum phase switch, the fundamental building block for quantum information
processing. I will also discuss our efforts to extend devices to telecom wavelengths.
17:50 : Superconducting Nanowire Single Photon Detectors Integrated with GaAs Waveguide Circuits
Robert Kirkwood, Chandra M. Natarajan, Alessandro Casaburi, Mike Tanner, Robert Hadfield
University of Glasgow (UK)
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We present an SNSPD fabricated from NbTiN on top of a GaAs single mode waveguide and demonstrate
the operation of these integrated components. The use of III-V semiconductors as a platform for photonic
circuits is advantageous as it allows the inclusion of quantum dot single photon sources to be embedded
within waveguides.
18:05 : Invited talk
Photonic Crystal-Based Single Photon Infrared Detectors and Sources in Silicon-on-Inuslator Photonic Circuits
Mohsen Akhlaghi, Ellen Schelew, Jeff Young
University of British Columbia (Canada)
High efficiency, low noise single infrared photon detectors and high-rate single infrared photon sources that
can be integrated in silicon-on-insulator photonic circuits are highly desirable to enable scalable photonicbased quantum information processing. Here we report recent progress on using photonic crystal microcavities to a) realize near unity quantum efficiency superconducting nanowire single photon detectors, and b)
develop an ultra-compact source of spontaneously generated photon pairs, all at wavelengths = 1.55 microns.
18:25 : Invited talk
Silica on silicon planar photonic circuits for Quantum Information Processing
Peter G.R. Smith, James C. Gates, Corin B. E. Gawith, Christopher Holmes, Lewis G. Carpenter, Samuel A. Berry, Teresa I. Ferreiro, Paolo L. Mennea, Matthew T. Posner, Peter A. Cooper, Stephen G.
Lynch, Rex Bannerman, Miranda Turvey, Alexander Jantzen
University of Southampton (United Kingdom)
Quantum Information Processing makes use of quantum mechanics to achieve useful information processing
functions. This invited talk will review work carried out at the University of Southampton on the fabrication
of optical waveguide elements to realize essential functions for all optical quantum information handling.
Utilizing silica-on-silicon as a platform and direct UV writing of waveguides, results will be presented on the
key elements including single photon sources, waveguide circuits and waveguide sensors.
16:30 - 18:45 — Fuengirola
Session 3A29
SP32. Novel photonic and plasmonic structures: theory and applications
Organized by: Ching Eng Png and Qingguo Du
Chaired by: Qingguo Du and Gandhi Alagappan
16:30 : Invited talk
Manipulating polarization of radially polarized beams by anisotropic Kerr media
Bing Gu1 , Bo Wen1 , Guanghao Rui1 , Yuxiong Xue2 , Qiwen Zhan3 , Yiping Cui1
1
Southeast University (China), 2 Lanzhou Institute of Physcis (China), 3 University of Dayton (USA)
We propose the manipulation of the states of polarization and the spin angular momentum (SAM) flux of radially polarized beams (RPBs) by anisotropic nonlinear Kerr media. We investigate the vectorial self-diffraction
behavior of the RPBs induced by an anisotropic Kerr nonlinearity. Numerical studies demonstrate that the selfdiffraction patterns with a four-fold rotational symmetry have hybrid polarization and the interaction of RPBs
with the anisotropic Kerr media results in a redistribution of the SAM flux in the far-field plane.
16:50 : Invited talk
Plasmonic design for enhanced light emission and detection
Fang-Fang Ren1 , Guo-Gang Zhang2 , Meng Yang2 , Wei-Zong Xu1 , Jiandong Ye1 , Hai Lu2 , Rong Zhang2 ,
Yi Shi2 , Hark Hoe Tan1 , Chennupati Jagadish1
1
The Australian National University (Australia), 2 Nanjing University (China)
We report on the plasmonic nanostructures design for enhanced blue light emission from InGaN/GaN lightemitting diode structures, and also the plasmonic antenna design for enhanced responsivity of high-speed
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photodetectors in the spectral range from visible to mid-infrared. The mechanisms of different enhancement
features have been theoretically analyzed based on three-dimensional finite-difference time-domain simulations, and the results are well supported by the experimental observation.
17:10 : Invited talk
Optoelectronic applications of graphene-integrated silica nanowires
Fei Xu
Nanjing University (China)
Sub-wavelength silica nanowires(SNs) are attractive for integration with graphene, which can be realized
by covering a graphene sheet on the side and even the endface of a straight SN, or wrapping a SN on a
graphene-coated micro-rod. Here we will show several kinds of graphene-SN-hybrid devices and their optoelectronics applications.
17:30 : Light-trapping in perovskite solar cells
Qingguo Du, Ching Eng Png
A* STAR (Singapore)
A new type of inverted vertical cone photonic crystal nanostructure based perovskite solar cell has been
proposed. For optimized structure with a = 600 nm and R = 380 nm, the maximum MAPD of 24.0 mA/cm2
has been realized, the efficacy of our light-trapping architecture was shown by its ability to absorb sunlight
slightly beyond the Lambertian limit in the wavelength range of 300 nm - 800 nm.
17:45 : Whispering Bloch modes
Ben John Maling, Richard Craster
Imperial College London (United Kingdom)
Using illustrative examples, we discuss the properties of whispering Bloch modes, which are spatially-confined
eigenstates of open wave systems with high orders of rotational symmetry. We explore the potential application of whispering Bloch resonators as integrated photonic components and in other cases where cylindrical
whispering gallery mode resonators are currently employed. The effect of slightly perturbing the geometry of
the system is investigated, leading to asymmetric field patterns and other potentially desirable consequences.
18:00 : Towards Single Antenna On-Chip Surface Enhanced Raman Spectroscopy: Arch Dipole Antenna
Ali Raza, Frederic Peyskens, Stephane Clemmen, Roel Baets
Ghent University (Belgium)
Here, we present numerical investigation of SERS on an arch dipole (AD) antenna identically patterned on a
rib waveguide and compare it to the best engineered bowtie antenna. Our study shows a 23 fold improvement
over the state of the art thus promising shorter integration time and high Signal-to-Noise Ratio which should
ultimately enable the detection of on-chip SERS signals originating from a single antenna.
18:15 : Optical and mechanical properties of chitosan-based interpenetrating polymer networks
Catherine Claire Ryan, Maria Bardosova, Martyn Pemble
University College Cork (Ireland)
Chitosan is a versatile polymer derived from the naturally-occurring chitin1. It is pH-sensitive due to its cationic polyelectrolyte structure- a characteristic of chitosan which is commonly utilized in applications. Due
to instability in solution chitosan is cross-linked with separate chemical entities to form an interpenetrating
polymer network2. In the work presented here tetraethylorthosilicate has used for cross-linking. We present
here the results of our studies of the structural, mechanical and optical properties of chitosan-TEOS networks
combined with colloidal particles.
18:30 : Sub-THz Optical antenna in a Standard CMOS Technology
Xiaoli Ji, Yiming Liao, Qun Lou, Reixin Wu, Feng Yan
Nanjing University (China)
A high-performance optical antenna for Terahertz detectors is demonstrated using standard CMOS technology. By introducing the bowtie optical antenna patterned by Si material, surface plasmon polaritons (SPP)
are excited and propagate THz signals to MOSFETs via a strongly localized surface wave. The response of
the CMOS detector having the optical antenna is about 60 times larger than the design without the antenna.
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16:30 - 17:05 — Estepona
Session 3A30
SP29. Nonlinear photonic crystals and metamaterials
Organized by: Fangwei Ye and Boris Malomed
Chaired by: Alex Yulin and Fangwei Ye
16:30 : Invited talk
Optical control of patterns and polariton flow in semiconductor microcavities
Stefan Schumacher
University of Paderborn (Germany)
Polaritons in semiconductor microcavities are composite particles formed from photons and excitons. Through
their photonic component they can be efficiently optically controlled. Their excitonic part gives rise to intriguing
nonlinear behavior. Here we will discuss schemes to efficiently control self-organization and flow of polaritons
with light.
16:50 : Structured Light in Nonlinear Colloidal Media
Salih Silahli, Wiktor Walasik, Natalia Litchinitser
The State University of New York at Buffalo (USA)
We theoretically and experimentally investigate the possibility of necklace beam generation originating from
spatial modulational instability of vortex beams in engineered colloidal nonlinear media with different types of
exponential nonlinearity.
17:05 - 18:45 — Estepona
Session 3A31
SP16. Hyperuniformity and structural correlation in bio-inspired photonics
Organized by: Silvia Vignolini and Frank Scheffold
Chaired by: Silvia Vignolini and Frank Scheffold
17:05 : Invited talk
Photonic structures in plants
Ullrich Steiner
Adolphe Merkle Institute (Switzerland)
The study of structural colour in nature is a mature field, which invokes enduring interest. Most of the published
work concentrates on the animal kingdom, where butterflies, beetles, weevils, birds and marine organisms
are among the most studied. Plants are generally thought to employ mostly pigments, with only relatively few
known examples of photonic structures. This talk will summarise recent activities on photonics in plants and
present recent new results.
17:25 : Invited talk
Biotechnological routes to photonic nanostructures from diatoms microalgae and light emitting molecules
Roberta Ragni1 , Danilo Vona1 , Marco Lo Presti1 , Gabriella Leone1 , Luca Moretti2 , Francesco Scotognella2 ,
Guglielmo Lanzani2 , Stefania Roberta Cicco3 , Gianluca Maria Farinola1
1
Universita degli Studi di Bari Aldo Moro (Italy), 2 Center for Nano Science and Technology (Italy), 3 CNR
ICCOM (Italy)
Biotechnological routes to luminescent nanostructured materials are presented consisting, in either in vivo
or in vitro fluorochromation of diatoms micoralgae biosilica shells (frustules) with tailored organic or organo-
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metallic light emitting molecules. This approach enables to combine the natura photonic behaviour of diatom
silica skeleton with the emissive proerties of the molecuar dyes, leading to new hybrid systems with attractive
characteristics.
17:45 : Invited talk
Chiro-optical effects in disordered photonics : Harmonic distortions enhance circular dichroism of
Gyroids, and stochastic noise does not destroy it
Gerd Elmar Schroeder-Turk1 , Johannes Hielscher2 , Caroline Pouya3 , Peter Vukusic3
1
Murdoch University (Australia), 2 Friedrich-Alexander University (Germany), 3 Exeter University (United Kingdom)
The departure from strict periodic order in dielectric materials can offer properties that are inaccessible to
perfectly ordered photonic crystals (PhC). Herewith, we investigate the circular dichroism of the single Gyroid
PhC in the presence of spatial distortions. FDTD simulations and microwave transmission measurements on
3D-printed replicas show that harmonic long-wavelength spatial distortions (sinusoidal chirp) can enhance
the imbalance of the circular polarisation (CP) reflectances.
18:05 : Invited talk
Bio-inspired Surfaces with Nano-scale Structural Randomness: From Analysis to Fabrication and
Applications
R. H. Siddique, Y. Donie, G. Gomard, Hendrik Hoelscher
Karlsruhe Institute of Technology (Germany)
Various nanostructured surfaces found in nature look random at first sight. A closer look, however, frequently
reveals that randomness helps to improve useful properties ranging from self-cleaning to anti-reflection. Here,
we present to two butterflies - a glasswing (Greta oto) and a black butterfly (Pachliopta aristolochia) serving
as prototypes for nanostructured surfaces to improve the performance optical surfaces.
18:25 : Invited talk
Fabrication of Hyperuniform Disordered Photonic Bandgap Materials
Nicolas Muller1 , J. Haberko2 , C. Marichy3 , F. Scheffold1
1
University of Fribourg (Switzerland), 2 AGH of Science and Technology (Poland), 3 Universite de Lyon (France)
Disordered photonic materials are structures characterized by a non-deterministic variation of the refractive
index. Numerical calculations predict that under certain conditions such materials can exhibit a full photonic
bandgap with zero density of states in the gap. Here we present experimental results for a candidate for such
a disordered bandgap material, derived from hyperuniform point patterns. The high quality of the structures is
confirmed by an isotropic transmittance dip in the spectral response, measured by Fourier Transform Infrared
spectroscopy.
16:30 - 17:45 — Benalmadena
Session 3A32
SP23. Subwavelength grating structures and metamaterials for integrated
photonics
Organized by: Pavel Cheben and Robert Halir
Chaired by: Robert Halir
16:30 : Invited talk
High-efficiency single etch step surface grating couplers engineered by subwavelength structured
metamaterials
Daniel Benedikovic1 , Carlos Alonso-Ramos1 , Laurent Vivien1 , Pavel Cheben2 , Jens H. Schmid2 , Shurui Wang2 , Dan-Xia Xu2 , Boris Lamontagne2 , Jean Lapointe2 , Siegfried Janz2 , Robert Halir3 , Alejandro
Ortega-Monux3 , Juan-Gonzalo Wanguemert-Perez3 , Inigo Molina-Fernandez3 , Jean-Marc Fedeli4 , Milan Dado5
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1
4
Wednesday 27th July, 2016
Universite Paris Sud (France), 2 National Research Council (Canada), 3 Universidad de Malaga (Spain),
CEA-LETI (France), 5 University of Zilina (Slovakia)
We report our recent developments of high-efficiency fiber-chip surface grating couplers engineered by subwavelength grating structuration. The intriguing technological concept of subwavelength grating index engineering provides extraordinary degree of freedom in designing and fabricating high-performance optical
coupling interfaces for sub-micrometric silicon-on-insulator technology. We present an overview of various
demonstrations of high-efficiency surface grating couplers, particularly develop for silicon photonics applications in the near-infrared spectral range such as datacom and telecom optical interconnects.
16:50 : Invited talk
Spatial Heterodyne Fourier-transform Spectroscopy: from fundamentals to array waveguide interferometers
Maria L. Calvo1 , A. V. Velasco2 , P. Cheben3 , M. Florjanczyk3
1
Complutense University of Madrid (Spain), 2 Consejo Superior de Investigaciones Cientificas - CSIC (Spain),
3
National Research Council (Canada)
In past 20th C. Fourier-transform (FT) spectroscopy has rapidly become a powerful and widespread research
tool. This spectral analysis technique is based on well-known Michelson interferometer set-up. By scanning
the interferometer optical delay, a wavelength-dependent pattern is obtained. From it, input spectrum is calculated by applying a Fourier transformation. FT spectroscopy provides highly resolved spectral measurements
in IR, visible and UV ranges. Current key challenges include implementing larger optical delays in a reduced
footprint for higher resolutions.
17:10 : Invited talk
Photonic crystal member lasers with integrated beam routing gratings and metasurfaces
Weidong Zhou1 , Shichia Liu1 , Deyin Zhao1 , Hongjun Yang1 , Zhenqiang Ma2
1
University of Texas (USA), 2 University of Wisconsin-Madison (USA)
We report here vertically integrated surface-emitting lasers with integrated beam routing structures based on
photonic crystal cavities and dielectric gratings. Heterogeneous integration of III-V quantum well structures
with silicon based photonic crystal cavities on silicon were demonstrated based on transfer printing techniques. Such multi-layer stacked nano-structures offer a powerful platform for integrated photonics for both
in-plane and 3D photonic integrated on silicon.
17:30 : Monolithic Subwavelength High-index Contrast Surface Gratings for ultra-thin VCSELs
M. Gebski1 , E. Haglund2 , P. Moser3 , M. Riaziat4 , M. Dems1 , A. Larsson2 , T. Czyszanowski1 , J. A. Lott3
1
Lodz University of Technology (Poland), 2 Chalmers University of Technology (Sweden), 3 Technische Universität Berlin (Germany), 4 OEpic Semiconductors Inc. (USA)
We present reduced-vertical-dimension VCSEL designs that employ subwavelength monolithic high index
contrast surface gratings (MHCGs) and distributed Bragg reflectors (DBRs). We show results of computer
simulations of the optical field intensity distribution in these structures and the measured power reflectance
of GaAs MHCGs designed for 980 nm.
17:45 - 18:40 — Benalmadena
Session 3A33
SP5. Industrial Applications of Metamaterials
Organized by: Bernard Casse
Chaired by: Bernard Casse
17:45 : Invited talk
Modeling and design of metasurfaces for beam scanning
Badreddine Ratni1 , Andre de Lustrac1 , Gerard-Pascal Piau2 , Shah Nawaz Burokur3
1
Universite Paris Sud (France), 2 AIRBUS Group Innovations (France), 3 Universite Paris Ouest (France)
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We present the modeling and engineering of phase-modulated metasurfaces so as to control the direction
of an antenna’s radiated beam. The phase modulation on the metasurface is derived from the ray optics
analysis. Such a non-uniform metasurface is utilized as a partially reflective surface in Fabry-Perot cavity
antenna. Beam scanning is obtained and depending on the phase modulation applied, the scan angle can be
controlled.
18:05 : Invited talk
Nanoantenna-Enhanced Infrared Detectors for Improved Performance and Spectral Tunability
David W. Peters, J. K. Kim, A. Tauke-Pedretti, T. E. Beechem, J. F. Ihlefeld, P. Davids, M. B. Sinclair, J.
R. Wendt
Sandia National Laboratories (USA)
Incorporating nanoantennas onto infrared focal plane arrays (FPAs) may offer significant performance improvements and enhanced functionality over today’s state-of-the-art MWIR and LWIR FPAs. We are using
nanoantennas to concentrate light in a small volume, thereby allowing us to use less active material than in
current infrared detectors and thus lower the dark current. In the limiting case, we can envision using atomically thin detector layers such as graphene. We are using this architecture to incorporate real-time spectral
tunability.
18:25 : ISM (Industry Scientific and Medical standard) band flex fuel sensor using electrical metamaterial device
V. Rawat, Vihang Nadkarni, Sangeeta Narendra Kale
Defense Institute of Advanced Technology (India)
A stand-alone device working on the electrical metamaterial concept, operating at 2.47 GHz (ISM band),
using merely 10 uL sample is proposed to detect petrol:ethanol ratio in given hybrid fuel. Systematic shifts in
the transmission frequency as well as magnitude are observed, upto a maximum of =160 MHz and 12 dBm
with the hybrid fuels. The sensor also provides extreme miniaturization, micro-quantity sensing along with
rapid and excellent repeatability, thus promising a practically implementable product.
16:30 - 17:45 — Mijas
Session 3A34
SP36. Plasmonic sensing, imaging, and other active functions in biology and
medicine
Organized by: Wei-Chuan Shih and Yeon Sik Jung
Chaired by: Wei-Chuan Shih and Yeon Sik Jung
16:30 : Invited talk
Miniaturized Motor-Sensor Unibody Devices for Tunable Biochemical Release, DNA Removal, and Microfluidic Manipulation
Donglei (Emma) Fan, K. Kim, J. H. Guo, X. B. Xu
The University of Texas at Austin (USA)
In this talk, I will discuss our recent progress on innovative design, assembling and operation of new types
of miniaturized rotary motor-sensor unibody devices made from micro/nanoscale building blocks, such as
nanowires, nanodisks, nanodots, and microrods.
16:50 : Invited talk
3 Dimensionally Stacked Surface Enhanced Raman Scattering (SERS) Substrates with pico-Molar
Sensitivity
Daejong Yang, Hyunjun Cho, Sukmo Koo, Sagar Vaidyanathan, Kelly Woo, Hyuck Choo
California Institute of Technology (USA)
We have demonstrated a surface-enhanced Raman scattering (SERS) substrate capable of detecting 1 pM of
benzenethiol (BT) and developed better understanding of its enhancing mechanism by varying the fabrication
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process and also performing detailed simulation studies.
17:10 : Invited talk
Recent progress in chirality-based biomolecular sensing and hyperlens-based biological imaging
Minkyung Kim, Jungho Mun, Inki Kim, Dasol Lee, Junsuk Rho
POSTECH (Korea)
In this abstract, we will discuss recent progress of biomolecular sensing such as peptides and proteins using
chiral nanostructures. Also, recent advancement of super-resolution live imaging based on hyperlens for
biological applications will be discussed.
17:30 : Multiplex Detection and Imaging of Tumor Cells using Gold-based SERS platforms
Gustavo Bodelon, Veronica Montes-Garcia, Cristina Fernandez-Lopez, Jorge Perez-Juste, Luis M. LizMarzan, Isabel Pastoriza-Santos
Universidade de Vigo (Spain)
Surface-enhanced resonance Raman scattering (SERRS)-encoded tags have gained much interest toward
clinical diagnostics and drug discovery, but the portfolio of available systems is still limited. We report the fabrication of novel SERRS-encoded particles based on gold octahedra coated with poly(N-isopropylacrylamide)
microgels for the identification and imaging of proteins expressed in cells. Thus, three tumor-associated surface biomarkers were simultaneous detected and imaged. The plasmonic microgels are able to discriminate
tumor A431 and nontumor 3T3 2.2 cells while cocultured in vitro.
17:45 - 18:35 — Mijas
Session 3A35
GEN19. Nanofabrication and Characterization
Chaired by: Laura Sagle
17:45 : Invited talk
Hierarchical Oriented Assembly of Gold Nanorods
Luis M. Liz-Marzan
CIC biomaGUNE (Spain)
A method is presented that allows the preparation of hierarchical supercrystal structures made of oriented
gold nanorods, with a suitable control of patterning, lateral dimensions and number of nanorod monolayers.
The plasmonic properties are fully analyzed for supercrystals made of few layers, via simulations and experiments.
18:05 : 3D chiral plasmonic metamaterials fabricated by direct laser writing: The twisted omega particle
Ioanna Sakellari1 , Xinghui Yin1 , Maxim Nesterov1 , Konstantina Terzaki2 , Aggelos Xomalis2 , Maria
Farsari2
1
University of Stuttgart (Germany), 2 Institute of Electronic Structure and Laser (Greece)
In this work, we combine direct laser writing and subsequent electroless silver plating to experimentally and
theoretically study the plasmonic version of a 3D chiral meta-atom, which consists of a loop-wire structure,
or the so-called twisted omega particle. The metallic wire acts as a small electric dipole antenna, whereas
the loop act as a split ring resonator which exhibits a magnetic dipole resonance, leading to the separation of
right handed circularly polarized light and the left-handed one.
18:20 : Plasmonic nanorod array: novel fabrication methods and applications
Zhang-Kai Zhou, J. Xue, J. Li, X. H. Wang
Sun Yat-sen University (China)
Due to its wide applications from fundamental physics to optoelectronic devices, plasmonic nanorod array
(PNA) has long been cultivated as an important functional nanostructure. Herein, we propose two novel and
facile methods for fabricating PNA, and with one of them, we are even able to easily obtain nanorod array
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with gaps between adjacent nanorods below 10 nm. Additionally, corresponding applications such as flexible
light emission manipulating and photo-detection devices based on our obtained PNAs are also discussed.
16:30 - 18:10 — Alhaurin
Session 3A36
SP9. Non-Hermitian engineering in photonics, plasmonics and metamaterial
Organized by: Ramy El-Ganainy and Liang Feng
Chaired by: Ramy El-Ganainy and Liang Feng
16:30 : Invited talk
Non-Hermitian topological photonics
Steffen Weimann1 , Julia M. Zeuner1 , Mark Kremer1 , Mikael Rechtsman2 , Konstantinos Makris3 , Yonatan Plotnik4 , Yakov Lumer4 , Mark Rudner5 , Moti Segev4 , Alexander Szameit1
1
Friedrich Schiller University Jena (Germany), 2 The Pennsylvania State University (USA), 3 Vienna University
of Technology (Austria), 4 Technion (Israel), 5 Niels Bohr Institute (Denmark)
We present the first experimental observation of a topological transition in a non-Hermitian system. We monitor the topological transition by employing bulk dynamics only. Moreover, we demonstrate, theoretically and
experimentally, topological interface states in a PT-symmetric system. The PT-symmetric structure has unbroken PT symmetry, i.e., all eigenvalues in the spectrum are real, despite the system’s non-Hermiticity. The
non-Hermitian behavior is engineered by inducing bending loss by spatially wiggling every second waveguide.
16:50 : Invited talk
Parity-time symmetry synthetic metamaterials on silicon photonic chips
Yanfeng Chen1 , Minghui Lu1 , Liang Feng2 , Xiao-Ping Liu1 , Yelong Xu1 , William S. Fegadolli3 , Lin Gan4 ,
Axel Scherer3 , Zhi-Yuan Li4
1
Nanjing University (China), 2 The State University of New York at Buffalo (USA), 3 California Institute of Technology (USA), 4 Chinese Academy of Sciences (China)
Recently, parity-time (PT) symmetric optics has become an emerging field which allows a controlled interplay
between real and imaginary parts of refractive index. We experimentally synthesize one kind of unidirectional
reflectionless optical metamaterial on a silicon chip where reflection from one side is significantly suppressed near the spontaneous PT phase transition point. In addition, on the same platform, we experimentally
realize passive PT photonic lattices where we observe complex Bloch oscillations that have no counterpart in
Hermitian lattices.
17:10 : Invited talk
Non-Hermitian phase matching in atomic scattering
Sebastian Wuester1 , Ramy El-Ganainy2
1
Bilkent University (Turkey), 2 Michigan Technological University (USA)
We consider the effect of velocity dependent loss processes on the scattering of ultracold matter-waves. Due
to the loss, the entire process can be viewed as non-Hermitean four-wave-mixing of matter waves. We find
that suitable loss can actually strengthen certain scattering processes that would otherwise be suppressed by
energy and momentum conservation and explore to what extend this effect can be put to use for atom optical
applications.
17:30 : Invited talk
Spontaneous symmetry breaking and switching in coupled photonic crystal nanolasers
Alejandro Yacomotti, Philippe Hamel, Mathias Marconi, Fabrice Raineri, Ariel Levenson
LPN Laboratory for Photonics and Nanostructures (France)
We show spontaneous mirror-symmetry breaking in two coupled photonic crystal nanolasers. This is the
first experimental demonstration of such transition in micro/nanophotonics. A pitchfork bifurcation exhibits
two localized states, whose coexistence has been shown by optical switching with short pulses. This opens
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exciting avenues for integrated optical flip-flop memories. In addition, the symmetry breaking bifurcation has
been observed with only =100 intracavity photons, which makes this system promising to investigate nonclassical photon correlations.
17:50 : Invited talk
Non-Hermitian Modulation Instability
Konstantinos Makris1 , Justin Cole2 , Ziad Musslimani2 , Demetrios Christodoulides2 , Stefan Rotter3
1
University of Crete (Greece), 2 Florida State University (USA), 3 Vienna University of Technology (Austria)
We introduce a new type of nonlinear waves in inhomogeneous photonic systems. Such waves have constant
intensity in all space and exist only in complex potentials with gain and loss. Based on these exact solutions of
nonlinear Schrodinger equation, we examine theoretically their modulation instability on parity-time symmetric
potentials with cubic nonlinearities. We also investigate the stability and dynamics of vector constant-intensity
waves as solutions of a two-component nonlinear Schrodinger equation.
16:30 - 18:45 — Coin
Session 3A37
SP10. Nanophotonics using Hybrid and New Plasmonic Materials
Organized by: Mohamed Swillam
Chaired by: Mohamed Swillam
16:30 : Invited talk
Interactions between organic excitons and plasmonic metasurfaces
Deirdre M. O’Carroll, Zeqing Shen, Christopher Petoukhoff, Katsuya Noji, Ankur Dalsania
Rutgers University (USA)
To improve energy conversion efficiency in thin-film organic optoelectronics, light management using nanophotonic structures is necessary. Here, our recent work on improving light trapping and light extraction in organic semiconductor thin films using nanostructured silver plasmonic metasurfaces will be presented. Numerous optical phenomena, such as absorption induced scattering, out-of-plane waveguiding and morphologydependent surface plasmon outcoupling, are identified due to exciton-plasmon coupling between the organic
semiconductor and the metasurface.
16:50 : Invited talk
Enhanced optical nonlinearities in periodic photonic nanostructures containing patterned graphene
and other 2D materials
Nicolae Panoiu, Martin Weismann
University College London (United Kingdom)
We present a rigorous numerical method to analyze optical higher harmonic generation in one- and twodimensional (1D, 2D) periodically patterned structures containing different 2D materials, such as graphene,
MoS2, and WSe2, and investigate resonantly enhanced nonlinear interactions in such devices.
17:10 : Invited talk
Plasmonic resonances in gold nanorod-film coupled system
Xingxing Chen1 , Richard Blaikie2 , Boyang Ding2 , Min Qiu1
1
Zhejiang University (China), 2 University of Otago (New Zealand)
Plasmonic resonances in individual gold nanorod-film coupled system have been investigated. The spectral
shapes are significantly modified by the gap distance. These modifications arise from the hybridization of
several dipolar and multipolar plasmon modes that are strongly localized at the gap in sub-20nm domain.
When the gap distance is increased further, scattering characteristics of such nanorod-film coupled system
are highly dependent on illumination conditions due to interference. Finally we propose an application of the
studied system in facilitating photo-thermal conversion.
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17:30 : Invited talk
Characterizing Selection Rules of Nonlinear Plasmonics by Maxwell-Hydrodynamic Equations
Ming Fang1 , Xiaoyan Y.Z. Xiong1 , Wei E. I. Sha1 , Li Jun Jiang1 , Zhixiang Huang2
1
University of Hong Kong (Hong Kong), 2 Anhui University (China)
When electromagnetic waves strongly interact with metallic nanostructures, it can couple to free electrons
near the metal surface resulting in complex linear and nonlinear responses with fundamental and high-order
harmonic generation. Interestingly, the complex motion of electrons in metallic nanostructures resembles that
of fluids governed by the same hydrodynamic equation. In this work, the nonlinear response from metallic nanostructures governed by the special selection rules is understood by a finite-difference time-domain solution
to the Maxwell-hydrodynamic equations.
17:50 : Invited talk
Selecting a Plasmonic Material Using a Two-Dimensional Analysis of Confinement and Propagation
Length
Babak Dastmalchi1 , Thomas Koschny1 , Costas M. Soukoulis1 , Philippe Tassin2
1
Iowa State University (USA), 2 Shalmers University (Sweden)
We show that the properties of plasmonic materials (and also different plasmonic waveguide geometries)
have to be understood using a two-dimensional graph combining two figures-of-merit: the propagation length
and the confinement strength. In this way, one can naturally account for the trade-off between propagation
length and confinement that is typically observed for plasmonic materials. Our analysis provides guidance on
how to improve the performance of any particular plasmonic application and substantially eases the selection
of the plasmonic material.
18:10 : Plasmonic and thermal properties of TiN/Au core-shell nanoparticles
Stacey Drakeley, William Hendren, Robert Bowman, Fumin Huang
Queen’s University Belfast (United Kingdom)
We report a systematic experimental investigation on the optical and thermal properties of TiN/Au core shell
nanoparticles. Coating Au nanoparticles with TiN creates hybrid core-shell structures, which show strong
surface plasmon resonance effects. The plasmonic resonance of such nanoparticles is found to be tunable
with TiN thickness. The thermal properties of such hybrid nanoparticles were also systematically investigated
and compared to bare Au nanoparticles. The results will be significant for key applications such as heatassisted magnetic recording.
18:25 : Invited talk
New Trends in Computational Photonics
Salah Sabry Obayya
Zewail City of Science and Technology (Egypt)
A new smoothed finite element method (SFEM) is proposed to analyse time domain wave propagation in
photonic devices. Moreover, to accurately analyze plasmonic structures with strong discontinuities, a stable Bidirectional Beam Propagation Method(BiBPM) based on Blocked Schur (BS) algorithm is introduced.
Finally, an accurate andcomputationally efficient rational Chebyshev multi-domain pseudo-spectral method
(RC-MDPSM) for modal analysis of Photonic devices is presented.
16:30 - 17:15 — Blanca
Session 3A38
SP33. Metamaterial structures for healthcare applications
Organized by: Themos Kallos and Panagiotis Kosmas
Chaired by: Themos Kallos
16:30 : A novel microwave image slices (MIS) technique for Early Breast Tumors Detection based on
Metalenses
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Mazhar B. Tayel, Mohamed Ismail Badawi, Heba Tallah A. Hasan
Pharos University (Egypt)
Microwave imaging (MWI) is an attractive alternative technique for mamograph breast imaging. The procedures are comfortable, and the clinical system cost is a small fraction of the Magnetic resonance imaging
(MRI), making it affordable for widespread screening. The procedures offer no hazards and the potential is
significant for detecting very small tumors in early stages of cancer progress.The proposed system showed
that tumors, as small as 2 mm in breast model, can be clearly detected.
16:45 : Microwave Devices for Theranostic Applications
Margarita Puentes, Carolin Reimann, Martin Schubler, Rolf Jakoby
Technische Universitat Darmstadt (Germany)
The evolution from a large demonstrator into a minimal invasive microwave device for theranostic applications
in healthcare environments is presented. The sensor element is based on microstrip/coplanar excited SRR.
The initial prototypes were bulky and could only detect the dielectric properties of organic tissue. Extensive
work was done to reduce the size and packaging to include them in a minimal invasive tool and create a
second operation mode where the tissue could also be ablated with the same device.
17:00 : Large-Scale Metamaterial Anti-Reflection Coating for Biological Tissues at 60 GHz
Helena Cano Garcia1 , Shimul Saha2 , Panagiotis Kosmas1 , Efthymios Kallos2
1
King’s College London (United Kingdom), 2 Medical Wireless Sensing Ltd. (United Kingdom)
While metamaterials are usually designed assuming plane wave excitation, in practice they are often placed closed to a finite source or an antenna. This paper presents simulation results of a large but finite
metamaterial-based antireflection coating for biological tissues excited by a patch antenna working at 60
GHz. Additionally, the minimum number of metamaterial cells necessary to obtain similar performance as a
unit cell (infinitely periodic) simulation is determined.
17:15 - 18:10 — Blanca
Session 3A39
GEN1. Plasmonics and nanophotonics
Chaired by: Jian Wang
17:15 : Invited talk
Large Radiative Decay Rate Enhancement of Single Quantum Dots by a Gold Nanocone Antenna
Korenobu Matsuzaki1 , Hsuan-Wei Liu1 , Bjorn Hoffmann1 , Anke Dutschke1 , Silke Christiansen1 , Stephan Gotzinger2 , Vahid Sandoghdar1
1
Max Planck Institute for the Science of Light (Germany), 2 Friedrich Alexander University (Germany)
The fluorescence enhancement of a single quantum dot by a plasmonic gold nanocone antenna was studied
experimentally. We show that the photophysics of the quantum dot is modified by the large enhancement
of the radiative decay rate. By taking the modified photophysics into account, we extract the radiative and
nonradiative decay rates from the experimental data. We demonstrate that a large radiative decay rate enhancement of the order of one hundred and a high quantum efficiency are achieved simultaneously.
17:35 : Invited talk
Ultrafast dynamics of plasmonic vortices
Deirdre Kilbane1 , G. Spektor2 , A. K. Mahro1 , B. Frank3 , L. Gal2 , H. Giessen3 , F.-J. Meyer zu Heringdorf4 ,
M. Orenstein2 , M. Aeschlimann1
1
University of Kaiserslautern (Germany), 2 Technion (Israel), 3 University of Stuttgart (Germany), 4 University
of Duisburg-Essen (Germany)
We map the spatiotemporal evolution of plasmonic vortices with <40 nm and 100 as resolution using timeresolved photoemission electron microscopy. The resulting sub-optical cycle snapshot images reveal the
ultrafast dynamics of orbital angular momentum leading to the formation of these vortices.
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17:55 : Out-of-Plane Optical Interactions of Nanohole Trimers Milled in Stacked Gold Films
Mohsen Janipour, Kursat Sendur
Sabanci University (Turkey)
Optical interactions of symmetric nanohole trimers milled in stacked gold films are investigated. A dispersive
finite-difference time-domain model is used to study the presented system through numerical simulations.
The normalized scattering spectrum of the presented structure demonstrates two distinct resonant peaks.
The scattering spectrum of the stacked structure is compared with the scattering spectrum of a symmetric
nanohole trimer.
16:30 - 17:30 — Sierra Nevada
Session 3A40
GEN4. Plasmonics and nanophotonics
Chaired by: Miztli Yepez
16:30 : Coherent perfect absorption induced by the nonlinearity of coupled Helmholtz resonators
Vassos Achilleos, Olivier Richoux, Georgios Theocharis
Universite du Maine (France)
In this work we show that the nonlinear response of Helmholtz resonators, can be used to control coherent
perfect absorption of sound waves in an acoustical waveguide. Three different configurations are studied, and
in all cases we find analytical expressions for the conditions leading to perfect absorption for high amplitude
incident waves. Experimental results are found in a good agreement with our predictions. The nonlinear
control of perfect absorption opens new possibilities in the design of high amplitude sound attenuators.
16:45 : Tunable waveguide and cavity in a phononic crystal/acoustic metamaterial plate by controlling
whispering-gallery modes
Yabin Jin1 , Yan Pennec1 , Yongdong Pan2 , Bahram Djafari-Rouhani1
1
Universite de Lille 1 (France), 2 Tongji University (China)
We investigate the properties of phononic crystal plates with hollow pillars and introduce the existence of
whispering-gallery modes. We show that, when tuning the inner radius of the hollow pillar, WGMs can merge
inside both Bragg and low frequency band gaps, deserving phononic crystal and acoustic metamaterial applications. By increasing quality factors, the confined WGMs are applied to wavelength division in multiplexer
devices using heteroradii pillars introduced into waveguide and cavity structures.
17:00 : Multi-particle trapping and patterning using phononic crystal plates
Tian Wang, Manzhu Ke, Zhengyou Liu
Wuhan University (China)
We experimentally demonstrated multi-particle trapping and patterning assisted by phononic crystal plates.
Polystyrene particles with sub-millimeter size can self-pattern in, for example, the square, triangular or quasiperiodic arrays, depending on the structures of the phononic crystal plates with varying sub-wavelength holes
array. The analysis shows that the resonant transmission field highly localized near the sub-wavelength apertures, yields a negative acoustic radiation force on the nearby particle. We expect this system may pave a
new route for particle self-assembly.
17:15 : Experimental demonstration of anomalous Floquet topological insulators for sound
Yu-Gui Peng, Xue-Feng Zhu
Huazhong University of Science and Technology (China)
Here, we report the first experimental demonstration of anomalous Floquet topological insulator (AFI) for
sound: a strongly coupled metamaterial ring lattice that supports one-way propagation of pseudo-spin-dependent
edge states under T-symmetry, scattering immune to boundary defects, such as abrupt variations. The very
unique thing is the formation of pseudo-spin-dependent interface states due to lattice dislocations. The mechanism underlying the formation of topologically protected boundary states in AFI is applicable in various
other wave systems or higher dimensions.
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17:45 - 18:15 — Sierra Nevada
Session 3A41
GEN6. Photonics based on 2D materials
Chaired by: Fei Xu
17:45 : Topological transition in anisotropic plasmonic metasurface
Andrey Bogdanov1 , O. Y. Yermakov1 , A. I. Ovcharenko1 , M. Song1 , D. A. Baranov1 , I. S. Sinev1 , I. S.
Mukhin1 , A. K. Samusev1 , I. V. Iorsh1 , A. V. Lavrinenko2 , Yu. S. Kivshar1
1
ITMO University (Russia), 2 Technical University of Denmark (Denmark)
We study both theoretically and experimentally a new class of surface electromagnetic waves supported by
resonant anisotropic metasurface. At certain frequency this type of metasurface demonstrates the topological
transition from elliptical to hyperbolic regime.
18:00 : Mageto-transport study in GaAs/Al0.3Ga0.7As nanostructure superlattice at very low temperature
Driss Barkissy, Abdelhakim Nafidi, Abderrazak Boutramine, Ali Khalal, Thami El Gouti, Mustapha Massaq
University Ibn Zohr (Morocco)
We have investigated the band structures E(d1), E(kz, kp) and the effective mass m*/m0 along the growth
axis and in the plane of GaAs(d1=19 nm)/Al0.3Ga0.7As(d2=5 nm) nanostructure superlattice, based on the
envelope function formalism. At 0.4 K, the band gap 1.53 eV situates this sample as near infrared detector.
We have also interpreted the oscillations in the magneto-resistance observed by Smraka et al. The position
of Fermi level indicates n type conductivity in this sample.
Conference Dinner
Departure by bus from the Convention Center entrance at 19:30
19:30 - 23:30
META16 Best Poster Award Ceremony
Sponsored by ACS OMEGA
21:00 - 21:15
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Thursday 28th July, 2016
08:00 - 09:45 — Malaga
Session 4A1
SP26. Advances in plasmonic and metamaterial devices
Organized by: Renmin Ma and Junsuk Rho
Chaired by: Renmin Ma and Junsuk Rho
08:00 : Invited talk
The applications of propagating surface plasmon waves in the SERS
Lierong Yuan, Lei Zhang, Qianjin Wang, Yongyuan Zhu, Yanqing Lu, Xuejin Zhang
Nanjing University (China)
Surface plasmon polaritons (SPPs) have low loss with great potential for surface-enhanced Raman scattering
(SERS) applications. We take subwavelength metallic grating as an example, which is a simple and effective
structure to increase the enhancement factor (EF) of the SERS. Enormous electric field enhancement can
be realized by the optimization of material, structure and technology, which is investigated by both finitedifference time-domain simulation and SERS EF measurements.
08:20 : Invited talk
CMOS THz On-chip Surface-wave Resonator and Oscillator
Yuan Liang, Hao Yu, Xiaojian Fu
Nanyang Technological University (Singapore)
A compact high-Q surface-wave resonator is demonstrated at sub-THz in 65nm CMOS. This magnetic metamaterial achieves a significant reduction of radiation loss at sub-THz by further stacking additional resonator
unit-cell which has opposite placement with respect to the existing resonator. A 140GHz oscillator is then
designed by incorporating the surface-wave resonator as low loss loading, demonstrating confinement of EM
energy with high-Q factor which easily start-up the 140GHz oscillator in low power.
08:40 : Invited talk
Physical Scaling Laws of Nanophotonics
Ke Liu, Arka Majumdar, Volker J. Sorger
George Washington University (USA)
Here we report fundamental scaling laws for optoelectronic devices including nanophotonics and plasmonics.
We show how the underlying optical cavities directly influences the performance of four classes of photonic
devices, namely laser sources, electro-optic-modulators, photodetectors, and all-optical switches. We observe
non-monotonic performance behavior upon down-scaling, which is a result of balancing the optical losses
and providing cavity feedback highlighting the physical tradeoff between optical loss management and field
confinement.
09:00 : Versatile and controllable excitation of SPPs by a metasurface composed of triangular nanoantennas
Benfeng Bai, Oubo You
Tsinghua University (China)
We present a metasurface approach that can realize versatile and controllable excitation of surface plasmon
polaritons (SPPs). The metasurface consists of triangular shaped nanoantennas that can directionally excite
SPPs under normal incidence. By properly arranging the nanoantennas according to the required phase and
amplitude distribution of a SPP wavefront, any SPP beam with even complex profile can be generated. The
metasurface can also be designed to realize broadband, polarization-controlled tunable directional excitation
of SPPs.
09:15 : Ultra narrow resonances, giant field enhancement and sensitivity by low-loss waveguide mo200
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des for sensing applications
Dmitry V. Nesterenko1 , Shinji Hayashi2 , Zouheir Sekkat1
1
Moroccan Foundation for Science, Innovation and Research (MAScIR) (Morocco), 2 Kobe University (Japan)
The resonance response of waveguide modes supported by a dielectric waveguide separated from a thin
metal film by a low-index dielectric spacer layer in Kretschmann configuration is studied numerically. The
impact of the loss in the waveguide to the resonance lineshape is demonstrated for s and p polarizations.
Ultra narrow resonances, giant sensitivity and intensity enhancement are discovered in the attenuated total
reflection angular spectra as a result of low-loss waveguide modes excitation allowing potential applications
in surface-enhanced sensing.
09:30 : Hot spot engineering in 3D Multibranched Nanostructures: realization of ultrasensitive platforms for Raman spectroscopy
Manohar Chirumamilla1 , Anisha Gopalakrishnan2 , Alexander S. Roberts3 , Remo Proietti Zaccaria2 ,
Francesco De Angelis2 , Peter Kjaer Kristensen1 , Roman Krahne2 , Sergey I. Bozhevolnyi3 , Kjeld Pedersen1 ,
Andrea Toma2
1
Aalborg University (Denmark), 2 Istituto Italiano di Tecnologia (Italy), 3 University of Southern Denmark (Denmark)
Nanofabrication of bimetallic 3D multi-branched nanostructures enables the detection of analyte molecules
down to single molecule level with the aid of hot-spots generated on the structure. Here we present fabrication
and characterization of multi-branched nanostructures (up to 10 branches) for ultra-sensitive detection of
Rhodamine-6G and p-Aminothiophenol molecules.
08:00 - 10:00 — Ronda
Session 4A2
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Nanfang Yu
08:00 : Invited talk
Reconfigurable Metasurfaces Based on Graphene and Indium Tin Oxide Materials
Ali Forouzmand, Jierong Cheng, Hossein Mosallaei
Northeastern University (USA)
Here, a leaky wave antenna is designed capable of full control over beam-width and beam steering direction
in both elevation and azimuth planes operating at low-terahertz frequencies. In addition, a tunable dual-band
reflectarray antenna is proposed by integration of a thin layer of indium tin oxide into a plasmonic double
metal/insulator/metal ribbons unit-cell. An array of unit-cells with one-dimensional voltage biasing distribution
creates a reconfigurable meta-lens with functionalities as bending, focusing, and beam shaping at two distinct
near-infrared frequencies.
08:20 : Invited talk
Tunable mid-infrared photonics with phase transition materials
Mikhail Kats
University of Wisconsin (USA)
The mid-infrared (mid-IR) spectral range has recently become more important for both applications and fundamental science. However, compared to their counterparts in the visible, optical components in the mid-IR
are still significantly under-developed. We create tunable optical components for the mid-IR by incorporating phase transition materials that respond to temperature, current, or applied electric field into photonic
structures such as interference coatings, optical metasurfaces, and thermal emitters.
08:40 : Invited talk
Novel dielectric nanophotonic structures with unusual nonlinear and spectral properties
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Zin Lin1 , Yang Li1 , Eric Mazur1 , Marco Loncar1 , Alejandro Rodriguez2
1
Harvard University (USA), 2 Princeton University (USA)
We describe novel nanophotonic structures, e.g. new kinds of optical micropillars, slabs, and waveguides,
consisting of aperiodic or complicated arrangements of subwavelength dielectrics designed to exhibit unusual nonlinear and spectral properties. In contrast to conventional, hand-designed nanostructures relying on
intuitive design principles, our structures are obtained via brute-force adjoint optimization techniques, leading
to magnitude enhancements in nonlinear interactions and exotic spectral features, e.g. doubly and even triply
degenerate Dirac cones that result in exotic zero-index metamaterials and exceptional points.
09:00 : Invited talk
Metasurfaces based on defect-engineered phase transition materials
Jura Rensberg1 , Shuyan Zhang2 , Alexander S. McLeod3 , Christian Schwarz1 , Michael Goldflam3 , Ronny
Nawrodt1 , Mengkun Liu3 , Jochen Kerbusch4 , You Zhou2 , Shriram Ramanathan2 , D. N. Basov3 , Federico Capasso2 , Carsten Ronning1 , Mikhail A. Kats2
1
Friedrich-Schiller-Universitat Jena (Germany), 2 Harvard University (USA), 3 University of California (USA),
4
Institute of Ion Beam Physics and Materials Research (Germany)
In this contribution, we demonstrate that phase coexistence can be artificially introduced in VO2 by patterned
local ion beam irradiation with spatial resolution much smaller than the wavelength of light. This results in a
metasurface with effective optical properties that can be predicted applying an appropriate effective medium
theory. These thin film structures are promising for dynamic polarization control, reconfigurable absorbers and
emitters, and the tuning of plasmonic and dielectric resonant nanostructures for adaptive optics applications.
09:20 : Invited talk
Widely Tunable Optical Antennas for Reconfigurable Metasurfaces
T. Lewi, P. P. Iyer, N. A. Butakov, Jon A. Schuller
UC Santa Barbara (USA)
The ability to engineer the optical phase at subwavelength dimensions has led to metasurfaces that provide unprecedented control of electromagnetic waves. To reach their ultimate potential, metasurfaces must
incorporate reconfigurable functions. The central challenge is achieving large tunability in subwavelength elements. Here, we describe three different approaches for achieving order-unity index: free-carrier refraction,
thermo-optic tuning, and metal-insulator transitions. We demonstrate wide tuning of single-particle infrared
Mie resonances, and describe ongoing efforts to achieve tuning via electrical or optical gating.
09:40 : Invited talk
3D plasmonic resonators for sensing and metadevice
Wei-Yi Tsai1 , Ching-Fu Chen2 , Mu-Ku Chen1 , Pei Ru Wu1 , Yi-Hao Chen1 , Ting-Yu Chen1 , Jia-Wern
Chen1 , Cheng Hung Chu2 , Wei Ting Chen1 , Ming Lun Tseng2 , Yao-Wei Huang2 , Pin Chieh Wu2 , Chun
Yen Liao1 , Huijun Wu2 , Wen Ting Hsieh2 , Shiang-Jiu Wang2 , Hung-I. Lin2 , Greg Sun3 , Ai Qun Liu4 ,
Nikolay I. Zheludev5 , Din Ping Tsai2
1
National Taiwan University (Taiwan), 2 Academia Sinica (Taiwan), 3 University of Massachusetts (USA), 4 Nanyang
Technological University (Singapore), 5 University of Southampton (United Kingdom)
Plasmonic metamaterials composed of artificial structures in subwavelength scale exhibit many novel properties for light manipulation and photonic device. Split-ring resonator (SRR), one kind of building block of
metamaterials, has attracted wide attentions due to the resonance excitation of electric and magnetic dipolar response. Fundamental plasmon properties and potential applications in novel three dimensional vertical
split-ring resonators (VSRRs) are designed and investigated.
08:00 - 09:20 — Nerja
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Session 4A3
SP25. Topological photonics
Organized by: Jorge Bravo-Abad
Chaired by: Jorge Bravo-Abad
08:00 : Invited talk
Two-dimensional topological photonic crystals
S. Barik, H. Miyake, W. DeGottardi, E. Waks, Mohammad Hafezi
Joint Quantum Institute (USA)
We propose a design for photonic crystals with topological properties. Both Finite-difference-time-domain
simulations and tight-binding model show topological protection as controllable directional light propagation
with circularly-polarized dipole excitations and backscattering-free propagation around sharp corners.
08:20 : Invited talk
Metasurface laser
Boubacar Kante
University of California San Diego (USA)
We have designed a high quality factor cavity that is based on a bound state in the continuum at a metasurface and harnessed its properties to demonstrate a novel type of surface emitting laser. We have experimentally
demonstrated lasing action in this compact nanophotonic laser at room temperature and for a very low threshold power.
08:40 : Invited talk
Nonlinear topological states of interacting photons
Alexander N. Poddubny
ITMO University (Russia)
We discuss nonlinear topological states of light in the quantum and classical regimes. As two main examples,
we consider (i) zero-dimensional quantum edge states of photon pairs in the chains of quantum microcavities
and (ii) topological phases in the arrays of bianisotropic scatterers, induced by the optomechanical configurational nonlinearity.
09:00 : Invited talk
Z2 Topological Photonics derived from Crystal Symmetry
Xiao Hu
WPI-MANA (Japan)
We demonstrate that a Z2 topological photonic state can be achieved in a system made of conventional dielectric material, such as silicon. We explore the C6 crystal symmetry to compose pseudospin and pseudo
time-reversal symmetry similar to that for electrons. With band inversion between photonic bands characterized by opposite parities with respect to spatial inversion, nontrivial topology emerges similarly to the quantum
spin Hall effect in electronic systems.
09:20 - 10:00 — Nerja
Session 4A4
SP35. (Nano)Plasmonic Biosensors
Organized by: Laura M. Lechuga and Hatice Altug
Chaired by: Laura M. Lechuga and Hatice Altug
09:20 : Invited talk
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Ultrasensitive plasmonic biosensors platforms-from conception to controllable biofunctionalization
and detection of target (bio)molecules
Rodica Elena Ionescu, Pierre-Michel Adam, Jean-Louis Bijeon
Universite de Technologie de Troyes (France)
The talk will discuss different cost-effective approaches enabling the design of controllable metallic microand nano-structured glass substrates using either natural micrometric labels such as Escherichia coli bacteria, metallic staples, scotch tape barcode-like or microscopic TEM grids for further high throughtput and
multiplexing plasmonic sensitive detection of (bio)molecules.
09:40 : Invited talk
Nanoplasmonic Sensor Arrays for Rapid Detection of Biomolecules and Nanoparticles
Avijit Barik, Shailabh Kumar, Daehan Yoo, Yong-Sang Ryu, Xiaoshu Chen, Daniel A. Mohr, Daniel J.
Klemme, Christopher T. Ertsgaard, Nathan J. Wittenberg, Sang-Hyun Oh
University of Minnesota (USA)
This presentation will focus the application of nanoplasmonic devices for rapid capture and detection of biomolecules and nanoparticles. We employ unconventional nanofabrication techniques - template stripping and
atomic layer lithography - to mass produce high-density plasmonic sensor arrays and combine them with rapid
sample concentration schemes.
08:00 - 10:00 — Antequera
Session 4A5
SP28. On-chip Integrated Quantum Photonics
Organized by: Luca Sapienza and Alessandro Casaburi
Chaired by: Luca Sapienza and Alessandro Casaburi
08:00 : Invited talk
Resonant laser spectroscopy of localized bright and dark excitons in monolayer WSe2
S. Kumar1 , M. Brotons-Gisbert1 , R. Al-Khuzheyri1 , A. Kaczmarczyk1 , G. Ballesteros-Garcia1 , J. F. SanchezRoyo2 , B. D. Gerardot1
1
Heriot-Watt University (United Kingdom), 2 Universidad de Valencia (Spain)
Resonance and near-resonance fluorescence of isolated quantum emitters in a two-dimensional semiconductor is investigated. Resonance fluorescence and bright, stable high-purity single photon emission is achieved.
High resolution photoluminescence excitation spectroscopy is used to characterize the bright exciton finestructure. Moreover, localized dark exciton states blue-shifted by approximately 5 meV from the bright exciton
states is directly observed. These results open a path towards future investigations of spin-valley and exciton
coherence in 2D semiconductors.
08:20 : Invited talk
Quantum dots in monolayered WSe2 : A new class of high purity solid state single photon sources
Yu-Ming He, Oliver Iff, Nils Lundt, Sven Hoefling, Christian Schneider
University of Wuerzburg (Germany)
Solid state quantum emitters are excellent candidates for on-chip quantum light emission, as they promise
ultra-compact integration into complex devices and a vast flexibility of engineering their properties via advanced crystal growth and lithography techniques. While In(Ga)As quantum dots probably can still be considered
as the prime example of a quantum emitter in solid, the emergent class of two dimensional transition metal
dichalcogenides has recently emerged as an interesting alternative. Here, we study the properties of optically
active defects in WSe2, exfoliated on SiO2 as well as GaInP substrates.
08:40 : Invited talk
Quantum photonics with quantum dots in photonic wires
Mathieu Munsch1 , Andreas Kuhlmann1 , Davide Cadeddu1 , Jean Teissier1 , Martino Poggio1 , Niels
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Gregersen2 , Jean-Michel Gerard3 , Julien Claudon1 , Richard J. Warburton1
1
University of Basel (Switzerland), 2 Technical University of Denmark (Denmark), 3 Universite Grenoble Alpes
(France)
We present results from the spectroscopy of a single quantum dot in a photonic wire. The device presents
a high photon extraction efficiency, and strong hybrid coupling to mechanical modes. We use resonance
fluorescence to probe the emitter’s properties with the highest sensitivity. We perform a detailed analysis of
the noise in the device and reveal in particular the thermal excitation of mechanical modes at 4 K.
09:00 : Invited talk
Polarization Engineering in Photonic Crystal Waveguides for Spin-Photon Entanglers
A. B. Young1 , A. C. T. Thijssen1 , D. M. Beggs1 , P. Androvitsaneas1 , L. Kuipers2 , J. G. Rarity1 , Stephen
Hughes3 , Ruth Oulton1
1
University of Bristol (United Kingdom), 2 FOM Institute AMOLF (The Netherlands), 3 Queen’s University (Canada)
We present our work on QD spin emitters in photonic crystal waveguides, demonstrating that by placing a QD
spin emitter at a C-point polarization singularity, one may achieve perfect unidirectional emission of a photon
from the emitter, whose direction is determined by the spin direction.
09:20 : Invited talk
Quantum entanglement between distant quantum dot spins
Emre Togan, Jan Klaers, Aymeric Delteil, Zhe Sun, Atac Imamoglu
ETH Zurich (Switzerland)
Controllably generating entanglement between distant qubits is an important milestone for distributed quantum computation. We will discuss recent results demonstrating heralded entanglement between hole spins of
quantum dots, as well as new approaches for generating entanglement between qubits.
09:40 : Invited talk
Integrated Quantum Frequency Comb Source of Entangled Qubits
Michael Kues1 , Christian Reimer1 , Piotr Roztocki1 , Benjamin Wetzel1 , Yaron Bromberg2 , Brent E.
Little3 , Sai T. Chu4 , David J. Moss5 , Lucia Caspani6 , Roberto Morandotti1
1
INRS - EMT (Canada), 2 Yale University (USA), 3 Xi’an Institute of Optics and Precision Mechanics of CAS
(China), 4 City University of Hong Kong (Hong Kong), 5 Swinburne University of Technology (Australia), 6 HeriotWatt University (United Kingdom)
We demonstrate the simultaneous generation of multiple time-bin entangled photon pairs on a CMOS-compatible
photonic chip. We measure quantum interference and perform state tomography, confirming entangled qubits
with fidelities above 86percent and 99.9percent purity.
08:00 - 10:00 — Fuengirola
Session 4A6
SP30. Heat assisted magnetic recording and Plasmonics and metamaterials
beyond pure noble metals
Organized by: Fumin Huang and Roberto Fernandez-Garcia
Chaired by: Fumin Huang and Roberto Fernandez-Garcia
08:00 : Invited talk
HAMR and the Future of Hard Drives
Roberto F. Garcia, Mark Gubbins
Seagate Technology (United Kingdom)
Hard drives with HAMR technology will store significantly higher areal densities around 1.5Tbit per square inch
initially and will be able to store noticeably more data than today’s HDDs featuring perpendicular recording
technology. Eventually we expect that HAMR will help to increase bit densities of hard disk drives to 5Tbit per
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square inch. In this presentation, we will give an introduction to the HAMR technology and its impact on the
actual hard disk technology industry.
08:20 : Invited talk
Plasmonic and thermal properties of transition metal nitride/noble metal core-shell nanoparticles
Fumin Huang, Stacey Drakeley, Muigahid Ali, William Hendren, Robert M. Bowman
Queen’s University Belfast (United Kingdom)
We report a systematic investigation on the optical and thermal properties of core-shell nanoparticles composed of noble metal nanoparticles coated with transition metal nitrides. Plasmonic properties of such core-shell
nanoparticles are strongly dependent on the thickness and the materials of the coating layer. We also investigate the thermal properties of such hybrid nanoparticles and compare them to bare noble nanoparticles.
The results show significantly improved stability, which could be important for key applications such as heatassisted magnetic recording.
08:40 : Invited talk
Refractory Plasmonic Materials for Heat Assisted Magnetic Recording
Alexandra Boltasseva, Urcan Guler, Alexander V. Kildishev, Ernesto E. Marinero, Vladimir M. Shalaev
Purdue University (USA)
Refractory plasmonic materials offer superior mechanical, thermal and structural stability advantages over noble metal plasmonic antennas for heat assisted magnetic recording (HAMR). Whereas these inherent advantages position these materials as leading candidates for potential replacement of Au in HAMR nano-antenna
fabrication, their bulk optical properties result in significant self-heating. In this presentation we will describe
our progress in manipulating the optical properties of refractory plasmonic nanostructures to circumvent this
limitation.
09:00 : Invited talk
Alternative Materials for Plasmonic Applications
Peter K. Petrov1 , Andrei Mihai1 , Bin Zou1 , Laurentiu Braic1 , Nikolaos Vasilantonakis2 , Stefan Maier1 ,
Neil Alford1 , Anatoly Zayats2
1
Imperial College London (United Kingdom), 2 King’s College London (United Kingdom)
Several new plasmonic materials have recently been introduced in order to achieve better temperature stability than conventional plasmonic metals and control field localization with a choice of plasma frequencies in
a wide spectral range. Here, epitaxial SrRuO3 TiN and TiON thin films with low surface roughness are studied. It is demonstrated that SrRuO3 thin films exhibit plasmonic behavior and epsilon-near-zero that could
be controlled by the deposition conditions.
09:20 : Invited talk
All-dielectric light concentrator for heat assisted magnetic recording
Andrey K. Sarychev1 , Sergey S. Vergeles2 , Gennady Tartakovsky3
1
Institute for Theoretical and Applied Electrodynamics RAS (Russia), 2 Institute for Theoretical Physics of RAS
(Russia), 3 Advanced Systems and Technologies - Inc. (USA)
We propose a novel all-dielectric near field transducer, which focuses the light, pumped through the waveguide, into a hot spot, which is much smaller than the wavelength, without dissipative loss inevitable in the
plasmonic nanoantennae.Therefore, the detrimental thermal effects almost vanish, which gives an opportunity
to use the concentrator for the heat-assistedmagnetic recording (HARM).
09:40 : Invited talk
Fully-integrated Light Delivery System for Heat Assisted Magnetic Recording
Qian Wang, Kim Peng Lim, Vivek Krishnamurthy, Jing Pu
Data Storage Institute (Singapore)
A fully-integrated light delivery ystem for heat assisted magnetic recording is presented. The proposed system
consists of two key features: 1) a high-index nanowaveguide is integrated with a tapered plasmonic transducer(NFT), which has a much higher waveguide-NFT-media efficiency due to the improved waveguide-NFT
coupling, 2) the III-V semiconductor laser is heterogeneously integrated on slider through bonding the epitaxial layers and light is efficiently coupled to the nanowaveguide through an ultra-compact adiabatic coupling
structure.
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08:00 - 09:40 — Estepona
Session 4A7
SP10. Nanophotonics using Hybrid and New Plasmonic Materials
Organized by: Mohamed Swillam
Chaired by: Mohamed Swillam
08:00 : Invited talk
Non-Hermitian Wave Mixing
Ramy El-Ganainy, J. I. Dadap, R. M. Osgood Jr.
Michigan Technological University (USA)
We introduce the notion of non-Hermitian wave mixing and show that it can be utilized to achieve efficient
nonlinear energy transfer between different optical modes even in the absence of the usual phase matching condition. We discuss the optical implementation of this concept in waveguide platforms and plasmonic
structures. This work may enable the realization of semiconductor-based long wavelength light sources and
parametric amplifiers which are otherwise difficult to build due to the stringent Hermitian phase matching
requirements.
08:20 : Invited talk
Directional Coupler Modulator based on Silicon Nanowires Platfrom
Elsayed Sherif 1 , Lamees Shahada1 , Mohamed Swillam2
1
Qatar University (Qatar), 2 The American University in Cairo (Egypt)
We propose an all CMOS directional coupler modulator. The device is based on silicon nanowires platform.
When the cladding of the directional coupler arms is filled with an electro-optic organic, modulation of the
optical signal can be achieved my means of electrical signal application. The modulator is operational at the
telecom wavelength, and it promises for fast operation owing to the fast response of the electro-optic organics.
08:40 : Invited talk
Designing broadband silicon devices using subwavelength structures
Robert Halir1 , Jose Manuel Luque-Gonzalez1 , Shurui Wang2 , Alejandro Sanchez-Postigo1 , Juan WanguemertPerez1 , Pavel Cheben2 , Jens Schmid2 , Dan-Xia Xu2 , Siegfried Janz2 , Jean Lapointe2 , Inigo MolinaFernandez1 , Alejandro Ortega-Monux1
1
Universidad de Malaga (Spain), 2 National Research Council (Canada)
Photonic structures with a sub-wavelength pitch, small enough to suppress diffraction, can behave as equivalent homogenous materials that can be engineered to exhibit a specific refractive index and dispersion. Here
we discuss the design of directional couplers and multi-mode interference couplers with an unprecedented
bandwidth in both the near-infrared and mid-infrared bands using such sub-wavelength structures. First experimental results indicate virtually perfect device performance in a bandwidth beyond 200nm at telecom
wavelengths.
09:00 : Invited talk
Semiconductors for infrared plasmonics and metamaterials
Stephanie Law
University of Delaware (USA)
This paper discusses the use of heavily-doped III/V semiconductors as the building blocks for infrared plasmonic and metamaterial devices. We begin by demonstrating the ability to tune the optical properties of our
materials by changing the electron doping density, leading to designer low-loss infrared plasmonic materials
with plasma wavelengths spanning the mid-infrared. We then describe plasmonic devices created with these
materials, including plasmonic nanoantennas and perfect absorbers. Finally, we describe recent work using
doped semiconductors for infrared metamaterials.
09:20 : Invited talk
Quantum efficiency gains by metal nanostructures in organic and quantum dot solar cells
Jung-Yong Lee, Doh Chang Lee
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Korea Advanced Institute of Science and Technology (Korea)
We discuss the effect of metal nanoparticles on the quantum efficiency of organic and quantum dot solar cells.
Both optical and electrical gains can be obtained when the metal nanoparticles are incorporated into the solar
cells appropriately. Optical gains can be maximized when the scattering power of the metal nanoparticles
dominates the absorption power. The nano-funneling effect of the metal nanoparticles improves the electrical
performance of the solar cells.
08:00 - 09:40 — Benalmadena
Session 4A8
SP17. Metamaterials for Magnetic Resonance Imaging
Organized by: Redha Abdeddaim, Alexandre Vignaud and Pavel Belov
Chaired by: Redha Abdeddaim, Alexandre Vignaud and Pavel Belov
08:00 : Invited talk
Dielectric shimming optimization
Tryfon Antonakakis
Multiwave Technologies AG (Switzerland)
Design of structured materials is hindered by lengthy computational time and a plethora of possible microstructures. Modeling a structured material is expensive in terms of computing memory, time and cost. One
needs to have the right structure or topology combined with the adequate materials responding to engineering requirements of permittivity, permeability. We demonstrate the use of a proprietary software used to find
the material and shape that yield the required relative permittivity.
08:20 : Invited talk
Passive decoupling of dipoles for a transmit-array MRI antenna at 7T with stacked magnetic resonators
Elodie Georget1 , Michel Luong1 , Alexandre Vignaud1 , Eric Giacomini1 , Edouard Chazel1 , Guillaume
Ferrand1 , Alexis Amadon1 , Stefan Enoch2 , Gerard Tayeb2 , Cyril Poupon1 , Redha Abdeddaim2
1
CEA-Saclay (France), 2 Aix Marseille Universite (France)
In Magnetic Resonance Imaging at ultra-high field, transmit-array RF coils (antennas) are preferred to homogenize the transmitted field. Strong coupling occurs between transmit array elements. A passive decoupling
solution is proposed based on a metamaterial solution. This structure composed of stacked magnetic resonators was studied for the decoupling of two adjacent dipoles at a proton Larmor frequency of 297.2 MHz.
The structure increased the decoupling of 13.3 dB, and increased the flip angle values in a 7T MRI scanner.
08:40 : Invited talk
Realization of a Magnetic Coil Based on Mode Hybridization and Application to Magnetic Resonance
Imaging
Camille Jouvaud, Redha Abdeddaim, Benoit Larrat, Julien de Rosny
ESPCI ParisTech (France)
An original concept of Ultra High Field MRI coil is presented. We take profit of the hybridization between four
half-wavelength resonators to change a simple surface coil antenna into a volume coil. The device acting as a
magnetic field enhancer (MFE) considerably increases the performance of a loop coil for magnetic resonance
imaging. MFE is analyzed in terms of coupling of 4 electrical modes. The performances of the device are
evaluated in vitro and in vivo.
09:00 : Invited talk
Flexible and compact metamaterials for high field in vivo magnetic resonance imaging
Rita Schmidt, A. G. Webb
Leiden University Medical Center (The Netherlands)
In this work we design a metamaterial tuned with a high permittivity material to produce a flexible and compact
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method for concentrating the magnetic field in an MRI experiment. The particular example used in this study
was a single pad placed behind the head to increase the efficiency and sensitivity in the visual cortex region
of the brain.
09:20 : Invited talk
Metamaterial-based Resonators for Magnetic Resonance Imaging
Alexey Slobozhanyuk
The Australian National University (Australia)
In this contribution, we will discuss potential applications of metamaterials resonators for magnetic resonance
imaging (MRI). More concrete, we reveal that the unique properties of ultrathin metasurface resonators can
substantially improve MRI characteristics. We place a metasurface formed by an array of metallic wires inside
a scanner under the studied object and achieve a substantial enhancement of the radiofrequency magnetic
field by means of subwavelength near-field manipulation with metasurface, also allowing to improve signalto-noise ratio (SNR) and image resolution.
08:00 - 10:00 — Mijas
Session 4A9
SP13. Disordered photonics
Organized by: Rubén Gerardo Barrera and Augusto Garcia Valenzuela
Chaired by: Alejandro Reyes-Coronado and Ana Lilia Gonzalez-Ronquillo
08:00 : Invited talk
Reflection amplitudes for turbid colloidal suspensions: Theory and experiment
Gesuri Morales-Luna, Humberto Contreras-Tello, Augusto Garcia-Valenzuela, Ruben Gerardo Barrera
Universidad Nacional Autonoma de Mexico (Mexico)
First we present a brief review of recently derived formulas for the reflection-amplitude of turbid colloidal
suspensions, pointing out the problems found when the effective-medium approach tries to be extended,
unsuccessfully, to the calculation of the reflectance in turbid media. Then we report measurements of the
reflectance, in an internal-reflection configuration, of turbid suspensions and their comparison with the results
obtained with the above-mentioned formulas. Finally, we addressed different options of future work.
08:20 : Invited talk
Physics of light scattering losses in dense nanocolloids
Augusto Garcia-Valenzuela, Roberto Marquez-Islas, Ruben G. Barrera
Universidad Nacional Autonoma de Mexico (Mexico)
New physical insight into the dependence of scattering losses of nano-colloidal suspensions with the particle
concentration is provided. The new knowledge is then used to investigate the behavior of scattering losses
in resonating dielectric nanoparticles and explore possible ways to reduce it in disordered metamaterials.
Additionally, the understanding and impact of particle density fluctuations on the effective optical properties
of nanocolloids is addressed.
08:40 : Invited talk
Metallic Nanocolloids: Theoretical Modeling and Characterization Techniques
Ana Lilia Gonzalez, Enrique Sanchez Mora
Benemerita Universidad Autonoma de Puebla (Mexico)
Experimental techniques such as microscopy and spectroscopy offer information of a colloidal sample of metallic nanoparticles about its concentration, size and shape distribution. On the other hand, some theoretical
models such as DDA allows estimate the position, intensity and number of surface plasmon of a nanoparticle
with specific size and shape. We present some cases where theorerical and experimental results can be
complemented one each other to give a precise description of the size and shape of the nanoparticle.
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09:00 : Invited talk
Thermo-optical response of nanoparticles embedded in a glass matrix
Emmanuel Haro-Poniatowski1 , M. Jimenez de Castro2 , I. Camarillo1 , G. Munoz1 , J. Toudert2 , R. Serna2
1
Universidad Autonoma Metropolitana Iztapalapa (Mexico), 2 CSIC (Spain)
Nanoparticles can be immersed in various materials and in particular in glasses, modifying their physical
properties. In the present work we investigate the cases of Bi and CuCl nanocrystals embedded in two
different glasses. The thermo-optical properties of these materials are described in detail.
09:20 : Invited talk
Graphene-based random meta-laser
Andrea Marini1 , Javier F. Garcia de Abajo2
1
ICFO - The Institute of Photonic Sciences (Spain), 2 ICREA (Spain)
Controlling the optical energy flow inside random media is a research frontier of photonics. In spite of their
success, random lasers still lack external tunability, reproducibility, and control over the beam spatial pattern,
thus hindering their application in practical devices. Here we show that a graphene random metamaterial
provides the means to overcome these limitations through its extraordinarily-low threshold for saturable absorption leading to efficient self-organization of the emitted light.
09:40 : Invited talk
Landau Damping in the Nonlocal Response of Metal-Dielectric Metamaterials
Felipe Perez-Rodriguez
Benemerita Universidad Autonoma de Puebla (Mexico)
The propagation of electromagnetic waves through a one-dimensional periodic heterostructureof bilayers with
nonlocal metal inclusions is studied. It is shown that the nonlocalityof metal conductivity leads to the emergence of the fundamental collisionless Landau damping, which considerably alters the photonic transmission
of the metal-dielectric metamaterial withinthe THz and near-infrared frequency range.
08:00 - 10:00 — Sierra Nevada
Session 4A10
SP9. Non-Hermitian engineering in photonics, plasmonics and metamaterial
Organized by: Ramy El-Ganainy and Liang Feng
Chaired by: Ramy El-Ganainy and Liang Feng
08:00 : Invited talk
PT-symmetry breaking in the steady state of coupled phonon lasers
Kosmas Kepesidis1 , Thomas Milburn1 , Konstantinos Makris2 , Stefan Rotter2 , Peter Rabl1
1
Atominstitut (Austria), 2 Institute for Theoretical Physics - TU Wien (Austria)
We discuss the phenomenon of PT-symmetric breaking in the steady state distribution of noisy systems with
balanced gain and loss. By considering a system of two coupled mechanical resonators with optically-induced
loss and gain, we show that the combination of nonlinear saturation effects and thermal noise results in a
unexpected steady-state behavior that differs significantly from the usual dynamical picture of PT-symmetry
breaking.
08:20 : Invited talk
Dynamically encircling exceptional points in a waveguide: asymmetric mode switching from the breakdown of adiabaticity
Jorg Doppler1 , Alexei Mailybaev2 , Julian Bohm3 , Ulrich Kuhl3 , Adrian Girschik1 , Florian Libisch1 , Thomas Milburn1 , Peter Rabl1 , Nimrod Moiseyev4 , Stefan Rotter1
1
Vienna University of Technology (Austria), 2 Instituto Nacional de Matematica Pura e Aplicada - IMPA (Brazil),
3
Universite Nice Sophia Antipolis (France), 4 Technion (Israel)
In my talk I will present our recent work on encircling so-called exceptional points. In particular, I will show
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that a fully dynamical rather than a parametric encircling of these non-Hermitian degeneracies leads to an
asymmetric mode switching. Mapping this feature onto the transmission through two-mode waveguides allows
us to access this phenomenon for the first time in the experiment.
08:40 : Invited talk
Selective amplification of semi-chiral defect states
Henning Schomerus
Lancaster University (United Kingdom)
In systems with suitable symmetries, topologically protected states can arise that are immune to perturbations. We discuss how the appearance of such states can be tailored by modifying the chiral symmetry, which
is one of the most common symmetries exploited in artificially engineered systems.
09:00 : Invited talk
Parity-time-symmetric photonic hypercrystals
Oksana Shramkova, G. P. Tsironis
University of Crete (Greece)
In this work we investigate the electromagnetic wave propagation in a PT-symmetric hypercrystal composed
of hyperbolic metamaterial layers separated by dielectric media with balanced loss and gain. The effect of the
loss/gain level on the evolution of dispersion curves is considered. It is shown that the scattering properties
of the stack and spontaneous symmetry breaking are strongly influenced by the constitutive and geometrical
parameters of the layers and wave angles of incidence.
09:20 : Invited talk
Scattering in PT and RT Symmetric Multimode Waveguides: Generalized Conservation Laws beyond
One Dimension
Li Ge1 , Konstantinos G. Makris2 , Demetrios N. Christodoulides3 , Liang Feng4
1
CUNY (USA), 2 University of Crete (Greece), 3 University of Central Florida (USA), 4 The State University of
New York at Buffalo (USA)
We extend the generalized conservation law of light propagating in a one-dimensional PT-symmetric system to
a multimode system with either PT or RT symmetry, in which higher dimensional investigations are necessary.
These conservation laws exist not only in a matrix form for the transmission and reflection matrices, they also
exist in a scalar form for generalized transmittance and reflectance.
09:40 : Invited talk
Symmetry approach to non-Hermitian waveguide arrays
Julio Guerrero1 , Blas Manuel Rodriguez-Lara2
1
Universidad de Murcia (Spain), 2 INAOE (Mexico)
We show that a wide class of non-Hermitian finite waveguide couplers, those with non-balanced gain and
losses and complex couplings, possess an underlying SO(3,1) symmetry realized in a non-unitary way, i.e.,
they are finite, non-unitary, optical realizations of the Lorentz group in 3+1D. We give analytic solutions for the
mode-coupling equations of the simplest array of the class: the non-hermitian dimer.
10:30 - 12:30 — Malaga
Session 4A11
SP5. Industrial Applications of Metamaterials
Organized by: Bernard Casse
Chaired by: Bernard Casse
10:30 : Invited talk
Commercializing Metamaterials Through the Lens of the Mythical Man Month
Themos Kallos
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Metamaterial Technologies Inc. (Canada)
In this work we investigate whether optical metamaterials in particular may require more than the typical resources to lead to successful commercialization. We also compare the estimated efforts with other technology
commercialization projects of the recent past. The recent developments of MTI to develop optical laser filters
for aircraft and aerospace applications will also be presented.
10:50 : Invited talk
Metamaterial Structures Applied to Wireless RF Front-End Distributed PA, BAW Filters, and Antennas
Maha Achour
Polyceed Inc. (USA)
In this presentation, we apply metamaterial-based structures to a multi-band / multi-antenna RF front-end
while illustrating the key benefits of metamaterial-based RF design. Pentaband antennas directly printed on
PCB, novel and simple distributed power amplifier architecture using GaAs fabrication for improving efficiency,
bandwidth and linearity at backed-off RF power is presented, BAW filters designs, and integrated directional
coupler for increased antenna isolation and MIMO channel de-correlation.
11:10 : Invited talk
Metamaterials Research at PARC
Bernard D. Casse
PARC, a Xerox company (USA)
For the past 3 years, PARC has been developing exciting and impactful metamaterial technologies for Fortune
500 companies and Government clients. In my talk, I will give an overview of our innovation agenda.
11:30 : Invited talk
Refractory plasmonic materials for high temperature plasmonic devices
Urcan Guler, Ernesto Marinero, Alexandra Boltasseva, Vladimir Shalaev
Nano-Meta Technologies - Inc. (USA)
Transition metal nitrides exhibit plasmonic properties in the visible and infrared regions of the electromagnetic
spectrum together with refractory properties that makes them uniquely viable as plasmonic components for
applications that require harsh operational conditions. In this talk, we will discuss metamaterials designed
for a variety of applications, such as thermophotovoltaics and sensors for extreme environments, where high
temperature durability and chemical stability are essential for proper functioning.
11:50 : Invited talk
Surface wave-based field confinement device for UHF-RFID readers
Jordi Bonache, Gerard Zamora, Ferran Paredes, Simone Zuffanelli, Pau Aguila, Ferran Martin
Universitat Autonoma de Barcelona (Spain)
In this work, we study the use of metamaterials for the generation of surface waves with controllable levels of
confinement for applications in near field UHF-RFID readers. This solution overcomes the limitation of conventional nearfield RFID readers, which are unable to define an accurate detection zone due to the presence
of significant levels of radiation leakage. We analyze the field distribution and polarization of several structures
to determine the most suitable configuration for different applications.
12:10 : Invited talk
Additive manufacturing of dielectric lenses for electromagnetic beam control
Jianjia Yi1 , Andre de Lustrac1 , Gerard-Pascal Piau2 , Shah Nawaz Burokur3
1
Universite Paris Sud (France), 2 AIRBUS Group Innovations (France), 3 Universite Paris Ouest (France)
Dielectric lenses are designed using Quasi-Conformal Transformation Optics (QCTO) concept and fabricated
by additive manufacturing for the control of wave propagation direction. Three lenses are studied, the first
one is used to compensate for the curvature of a non-planar antenna array, the second one to steer an
electromagnetic beam and the last one to concentrate an electromagnetic field.
10:30 - 11:50 — Ronda
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Session 4A12
SP12. Active and passive optical metasurfaces
Organized by: Howard Lee and Mikhail Kats
Chaired by: Jon Schuller
10:30 : Invited talk
Natural and Biomimetic Radiative Cooling Nano-Photonic Structures
Norman Nan Shi1 , Cheng-Chia Tsai1 , Fernando Camino2 , Gary D. Bernard3 , Rudiger Wehner4 , Nanfang Yu1
1
Columbia University (USA), 2 Brookhaven National Laboratory (USA), 3 University of Washington (USA),
4
University of Zurich (Switzerland)
I will talk about how Saharan silver ants utilize a uniquely shaped hair coating to substantially enhance reflectivity in the solar spectrum and emissivity in the mid-infrared. I will also talk about biomimetic metasurfaces
with such radiative-cooling properties.
10:50 : Invited talk
High speed optical modulators with tunable metasurface absorber
Yu Yao, Ali Basiri
Arizona State University (USA)
We show that graphene can be integrated into the metasurface absorbers to realize high speed strong optical
modulation in the mid-infrared (MIR) wavelength. Our device design is featured with a maximum modulation
depth up to 100percent and an insertion loss of
11:10 : Invited talk
Atomic metasurface for control single photons
Ming Zhou, Jingfeng Liu, Mikhail Kats, Zongfu Yu
University of Wisconsin (USA)
An atom with a resonant transition can capture the energy of a single photon and store it in the excited energy
level for a brief moment, before it is re-emitted. During this process, a phase is acquired. By exploiting this
resonant scattering phase in electronic transitions, here we show that atomic metasurface can be realized to
control non-classical light such as Fock states.
11:30 : Invited talk
Tunable metasurfaces for active manipulations of electromagnetic waves
Ziqi Miao, Che Qu, Shaojie Ma, Shulin Sun, Qiong He, Lei Zhou
Fudan University (China)
Metasurfaces, ultrathin metamaterials composed by array of planar meta-atoms with pre-designed electromagnetic (EM) properties, have attracted extensive attention recently. However, so far the realized metasurfaces are mostly passive systems, which cannot be used to dynamically control EM waves. In this talk, we
briefly summarize our recent efforts in making tunable metasurfaces to actively control EM waves.
10:30 - 12:50 — Nerja
Session 4A13
SP35. (Nano)Plasmonic Biosensors
Organized by: Laura M. Lechuga and Hatice Altug
Chaired by: Laura M. Lechuga and Hatice Altug
10:30 : Invited talk
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Plasmonically amplified fluorescence for biomarker analysis
Jakub Dostalek
Austrian Institute of Technology (Austria)
The detection of biomarkers present in bodily fluids by using surface plasmon-enhanced fluorescence will
be discussed. Novel hybrid materials composed of metallic nanoparticles and responsive hydrogels enabling
efficient capturing and probing of target analytes will be presented. Ultrasensitive detection of markers for
colon and ovarian cancer will be reported and routes for pushing the assay sensitivity to below femtomolar
concentrations will be addressed.
10:50 : Invited talk
Bioanalytics using single plasmonic nanostructures
T. Schneider, J. Jatschka, N. Jahr, D. Zopf, A. Dathe, J. Wirth, F. Garwe, A. Csaki, O. Stranik, W. Fritzsche
Leibniz Institute of Photonic Technology (Germany)
Plasmonic nanostructures promise to provide sensing capabilities with the potential for ultrasensitive and
robust assays in a high parallelization, and without the need for marker. Upon binding of molecules, the localized surface plasmon resonance (LSPR) of these structure is changed, and can be used as sensoric readout.
By using single plasmonic nanostructures as sensor, an ultimate miniaturisation as well as paralellization
(multiplexing) is possible.
11:10 : Invited talk
Plasmonic (Nano)biosensors for Clinical Chemistry
Jean-Francois Masson
Universite de Montreal (Canada)
In this presentation, our efforts towards the development of novel nanomaterials applied for sensing molecules
in crude biofluids will be discussed. Specifically, plasmonic nanoparticles and nanostructured surface were
applied to the detection of molecules for therapeutic drug monitoring, for therapeutic response monitoring and
for sensing other important biomarkers.
11:30 : Invited talk
Quantitative Reflection Imaging for Morphology and Dynamics of Live Aplysia Californica Pedal Ganglion Neurons on Nanostructured Plasmonic Crystals
S. Kang, A. Badea, S. S. Rubakhin, J. V. Sweedler, J. A. Rogers, Ralph Nuzzo
University of Illinois (USA)
Live cell imaging, essential in monitoring dynamic cell functions, is difficult due to the optical transparency of
cells. Stain-based imaging, however, often impacts the cell functions being observed, creating a need for live
cell imaging techniques with minimal physical and chemical effects on the cell. We herein describe a simple
reflection imaging system consisting of a plasmonic crystal, a common laboratory microscope, and band-pass
filters, and demonstrate its capabilities for quantitative imaging and in-situ monitoring of live cells.
11:50 : Invited talk
Graphene plasmonics for tunable mid-infrared biosensors
Daniel Rodrigo1 , Odeta Limaj1 , Davide Janner2 , Dordaneh Etezadi1 , F. Javier Garcia-de-Abajo2 , Valerio
Pruneri2 , Hatice Altug1
1
Ecole Polytechnique Federale de Lausanne (Switzerland), 2 ICFO - Institut de Ciencies Fotoniques (Spain)
Infrared spectroscopy provides chemical information of biomolecules by detecting their vibrational fingerprints.
Here, we use graphene plasmons to enhance infrared absorption and to demonstrate a tunable biosensor
with high sensitivity for label-free and chemically-specific detection of protein monolayers. We show that the
tunability and extreme light confinement of graphene offer great possibilities for biosensing.
12:10 : Invited talk
Towards Sensitive, Selective Point-Of -Care Plasmonic Diagnostic Devices
Debrina Jana, Jie He, Ian Bruzas, Sarah Unser, Laura Sagle
University of Cincinnati (USA)
This presentation will highlight three projects in the Sagle group towards improving plasmonic point-of-care
devices. The first project involves the incorporation of shape complementarity at the nanoparticle surface
for improved selectivity in complex media based on size. The second project develops an inexpensive and
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ultrasensitive platform for the detection of membrane-associated species, using colloidal lithography and solgel chemistry. Lastly, the incorporation of lithography-fabricated, uniform nanoparticle arrays into microfluidic
and multiplexed devices will be discussed.
12:30 : Invited talk
Plasmonic Biosensors and Their Bioanalytical Applications
Jiri Homola
Academy of Sciences (Czech Republic)
Plasmonic biosensors represent the most advanced and mature optical label-free biosensor technology. This
paper reviews selected recent advances in plasmonic biosensors, including advances in the method, optical
instrumentation, microfluidics, functionalization and detection methodology. Examples of bioanalytical applications illustrating performance and potential of plasmonic biosensors in medical diagnostics and food safety
are also presented.
10:30 - 12:30 — Antequera
Session 4A14
SP37. Manipulating Light using Integrated Nanophotonic Devices
Organized by: Jian Wang
Chaired by: Jian Wang
10:30 : Invited talk
Silicon-graphene hybrid devices for signal modulations
Ciyuan Qiu, Yong Zhang, Ruili Liu, Yikai Su
Shanghai Jiao Tong University (China)
Here we present our works on silicon-graphene hybrid devices for signal modulations. By tuning the fermi
level of the graphene, we have demonstrated a silicon-graphene micro-ring electro-optic (EO) modulator with
modulation depth about 40 percent. We also have proposed a nanobeam EO modulator and a spatial light
modulator (SLM) based on silicon-graphene hybrid structure. Their modulation speeds are calculated to be
higher than 45 GHz with the modulation depths larger than 10 dB.
10:50 : Invited talk
Nonlinear applications in the mid-infrared regime based on germanium on silicon platform
Li Shen, Noel Healy, Colin Mitchell, Jordi Soler Penades, Milos Nedeljkovic, Goran Mashanovich, Anna
Peacock
University of Southampton (United Kingdom)
This abstract reviews our progress in characterizing nonlinear properties of low loss germanium-on-silicon
waveguides in the mid-infrared wavelength. All-optical modulation is demonstrated in these waveguides and
indicates the suitability of this platform for nonlinear applications in this long wavelength regime.
11:10 : Invited talk
Approach total absorption in critically coupled photonic crystal structures with monolayer 2D materials
Weidong Zhou1 , Yonghao Liu1 , Xiaochen Ge1 , Xiuling Li2 , Shanhui Fan3
1
University of Texas at Arlington (USA), 2 University of Illinois at Urbana-Champaign (USA), 3 Stanford University (USA)
We review recent progresses in spectrally selective absorption enhancement in ultra-thin semiconductor nanomembranes and monolayer 2D materials integrated with defect-free dielectric photonic crystal cavities.
Based on local field enhancement and critical coupling concept, total absorption from ultra- and monolayer
dispersion materials can be obtained. Experimental results will also be discussed based on transfer printed single crystalline silicon and silicon nitride photonic crystal Fano resonance filters on glass and quartz
substrates.
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11:30 : Invited talk
Recent advances in light manipulation using plasmonic and dielectric metasurfaces
Jian Wang
Huazhong University of Science and Technology (China)
Metasurfaces, a new type of optical interfaces with patterned nanostructures, can provide great flexibility in
light manipulation. Plasmonic and dielectric metasurfaces can facilitate flexible manipulation of structured
light. In this talk, we review our recent research progress in light manipulation using plasmonic and dielectric
metasurfaces.
11:50 : Invited talk
Photonic integrated devices for the emission and detection of optical vortex beams
Laura Meriggi1 , Charalambos Klitis1 , Xinlun Cai2 , Shimao Li2 , Jiangbo Zhu3 , Siyuan Yu2 , Michael
Strain4 , Marc Sorel1
1
University of Glasgow (United Kingdom), 2 Sun Yat-Sen University (China), 3 University of Bristol (United
Kingdom), 4 University of Strathclyde (United Kingdom)
Emerging applications exploiting the orbital angular momentum of light will require compact and functional
devices for the emission, detection and manipulation of these beams. We will discuss recent progress on the
development of silicon-on-insulator micro-ring resonators for the emission of multiple OAM states with fast
reconfigurability.
12:10 : Invited talk
Reconfigurable Integrated Optical Signal Processing
Ming Li
Chinese Academy of Sciences (China)
All-optical implementations of signal processing have attracted a great deal of attention due to the unique
potential of this approach to overcome the bandwidth and speed bottleneck of electronic devices.In this talk,
very recent progresses on reconfigurable integrated optical signal processing will be introduced and reviewed.
These works represent an important step towards the realization of efficient optical signal-processing circuits.
10:30 - 12:10 — Fuengirola
Session 4A15
SP30. Heat assisted magnetic recording and Plasmonics and metamaterials
beyond pure noble metals
Organized by: Fumin Huang and Roberto Fernandez-Garcia
Chaired by: Fumin Huang and Roberto Fernandez-Garcia
10:30 : Invited talk
Comparing the efficiency of plasmonic materials The case of metal nitrides
Adrien Lalisse1 , Gilles Tessier2 , Jerome Plain1 , Guillaume Baffou3
1
Technological University of Troyes (France), 2 Universite Paris Descartes (France), 3 Institut Fresnel (France)
In this presentation, I will first introduce two new figures of merit intended to quantify the efficiency of a
plasmonic material to respectively enhance the near-field and generate heat under illumination. In a second
part, I will focus on the case of metal nitrides and explain in which conditions they can replace and eventually
outperform gold in plasmonics.
10:50 : Invited talk
Advances in Nano-aperture Optics and Ultrathin Overcoats for Heat-assisted Magnetic Recording
Reuben J. Yeo, Sajid Hussain, Neeraj Dwivedi, Shreya Kundu, Hyunsoo Yang, Aaron J. Danner, Charanjit Singh Bhatia
National University of Singapore (Singapore)
In heat-assisted magnetic recording (HAMR), a near-field transducer (NFT) is required to deliver sufficient
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power to heat a highly localized spot on high anisotropy magnetic media. We show that a C-shaped nanoaperture can provide much higher transmission efficiency compared to conventional designs to successfully
demonstrate HAMR. Separately, the media overcoat has to withstand aggressive heating conditions at ultrathin levels. We demonstrate the thermal stability of an ultrathin carbon overcoat for HAMR and also explore
graphene as a possible overcoat.
11:10 : Invited talk
Hot carrier excitation in transition metal nitrides
Satoshi Ishii, Satish Laxman Shinde, Mukesh Kumar, Ramu Pasupathi Sugavaneshwar, Thang Duy
Dao, Takahiro Yokoyama, Naoto Umezawa, Tadaaki Nagao
National Institute for Materials Science (NIMS) (Japan)
High carrier concentrations and optical losses of transition metal nitrides make them suitable for light absorption and photo-excited hot carrier applications. We show experimentally that titanium nitride nanoparticles
absorb sunlight efficiently and photocurrent is generated from titanium nitride thin films by optical illumination. Our calculations based on first-principles density functional theory are successful in calculating optical
properties of transition metal nitrides.
11:30 : Invited talk
Metal alloys for plasmonics applications
Marina S. Leite
University of Maryland (USA)
We determine the optical properties of noble metal thin-film alloys composed by Ag, Au, Cu and Al, by combining ellipsometry and SPP measurements and calculations, and find an excellent agreement between the
two experimental methods. Surprisingly, in some cases, the quality factor of the alloy is substantially higher
than their pure counterparts. We also quantify the dispersion relation for the alloys, providing a library of the
alloys’ optical response.
11:50 : Invited talk
Physics, Signal, and Noise in Heat-Assisted Magnetic Recording
Jian-Gang (Jimmy) Zhu, Hai Li
Carnegie Mellon University (USA)
In this paper, we primarily review the fundamental recording physics of heat-assisted magnetic recording
(HAMR), the leading candidate for next generation of hard disk drives. Multiple noise origins and its underlying mechanism are discussed and compared, along with recently focused noise, transition curvature. From
grain behavior to system optimization, various aspects are visited to validate and apply the recording physics
theorem via systematic micromagnetic modeling.
10:30 - 12:10 — Estepona
Session 4A16
SP10. Nanophotonics using Hybrid and New Plasmonic Materials
Organized by: Mohamed Swillam
Chaired by: Mohamed Swillam
10:30 : Invited talk
Plasmonic electric field enhancement on a graphene surface
Lin Chen1 , Xun Li2
1
Huazhong University of Science and Technology (China), 2 McMaster University (Canada)
Surface plasmon polaritons (SPPs) provides the capability of guiding light signal within ultra-small volume.
Here we will present our recent work on guiding, slowing down, and exciting plasmonic mode on a graphene
surface based on various nanostructures. Our results show that plasmonic wave localization in graphene is
also followed by a strong optical field enhancement due to the significant reduction of the group velocity of
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the graphene plasmonic mode.
10:50 : Invited talk
Breaking the Space Charge Limit in Organic Semiconductors by Novel Plasmon-Electrical Concept
Wallace Choy, W. E. I Sha, X. Li, L. Zhu
The University of Hong Kong (Hong Kong)
As a fundamental electrostatic limit, the space charge limit (SCL) for photocurrent is a universal feature
and of paramount importance in organic semiconductors with unbalanced electron/hole mobility and high
exciton generation. Here, we propose a new concept of plasmonic-electrical effect to manipulate the electrical
properties (photocarrier generation, recombination, transport, and collection) of semiconductor devices with
the help of plasmonically induced light redistribution.
11:10 : Invited talk
Long-Range Surface Plasmon-Polariton Waveguide Biosensors for Disease Detection
Oleksiy Krupin1 , Wei Ru Wong2 , Paul Beland1 , Rafik Adikan2 , Pierre Berini1
1
University of Ottawa (Canada), 2 University of Malaya (Malaysia)
We review recent progress on the application of long-range surface plasmon-polariton waveguide biosensors
for disease detection. The biosensors are constructed from metal stripe waveguides cladded in Cytop with etched microfluidic channels to expose the stripe surface to the sensing fluid. Application of straight waveguide
biosensors to the detection of leukemia in patient sera, of dengue infection in patient plasma, and bacteria in
urine is reviewed.
11:30 : Invited talk
Subwavelength grating engineered metamaterial waveguide structures for silicon photonic integrated
circuits
Pavel Cheben1 , J. H. Schmid1 , D. -X. Xu1 , S. Janz1 , J. Lapointe1 , M. Rahim1 , S. Wang1 , M. Vachon1 , R.
Halir2 , A. Ortega-Monux2 , G. Wanguemert-Perez2 , I. Molina-Fernandez2 , J. Pond3 , D. Benedikovic4 , C.
Alonso-Ramos4 , J. Soler Penades5 , M. Nedeljkovic5 , G. Z. Mashanovich5 , A. V. Velasco6 , M. L. Calvo6 ,
Y. Painchaud7 , M.-J. Picard7 , M. Poulin7 , M. Dado8 , J. Mullerova8 , W. N. Ye9 , M. Papes1 0, V. Vasinek1 0
1
National Research Council (Canada), 2 Universidad de Malaga (Spain), 3 Lumerical - Inc (Canada), 4 University
of Paris Sud (France), 5 CSIC and Universidad Complutense (Spain), 6 Ciena (Spain), 7 Ciena (Canada),
8
University of Zilina (Slovak Republic), 9 Carleton University (Canada), 1 0Technical University of Ostrava
(Czech Republic)
We report our advances in development of subwavelength engineered metamaterial structures for silicon
photonics. This unique technology allows synthesis of an effective photonic medium with an unprecedented control of material properties, constituting a powerful tool for a designer of photonic integrated circuits.
We present an overview of different implementations of these nanophotonic structures in silicon photonic
integrated circuits.
11:50 : Invited talk
Strong Light-matter Interaction in Two-dimensional Transition Metal Dichalcogenides Through Integration with Plasmonic Nanoantenna Arrays
Syed Hamed Shams Mousavi, Hossein Taghinejad, Mohammad Taghinejad, Ali A. Eftekhar, Ali Adibi
Georgia Institute of Technology (USA)
In this talk, a hybrid material platform based on careful integration of these two powerful material structures is
presented, and its use for optoelectronic applications (especially light generation) is presented. We show that
by combining lattice plasmon modes with local surface plasmon polaritons in plasmonic nanoantenna arrays,
new modes with Fano-type resonances for enhancing light ?matter interaction at desired wavelengths can be
engineered.
10:30 - 11:25 — Benalmadena
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Session 4A17
SP17. Metamaterials for Magnetic Resonance Imaging
Organized by: Redha Abdeddaim, Alexandre Vignaud and Pavel Belov
Chaired by: Redha Abdeddaim, Alexandre Vignaud and Pavel Belov
10:30 : Invited talk
Alternative antenna designs for ultra-high field MRI
Bart R. Steensma1 , Anna Hurshkainen2 , Stanislav Glybovski2 , Irina Melchakova2 , Peter R. Luijten1 , J.
M. Hoogduin1 , Dennis W. Klomp1 , C. A. T. Van den Berg1 , Alexander J. E. Raaijmakers1
1
University Medical Center Utrecht (The Netherlands), 2 ITMO University (Russia)
MRI of the body at 7T or higher requires dedicated antenna arrays. This work is presenting two alternative
antenna designs for this purpose. One design increases the space between the antenna and the patient
resulting in enhanced, but still acceptable, coupling levels. The other design uses sinusoidally shaped antenna
legs and is therefore called ’snake antenna’. Both designs have demonstrated good imaging performance and
equal or better transmit efficiency while realizing up to 45 percent lower SAR levels.
10:50 : Invited talk
Parallel Transceive for 7T MRI with Mushroom Electromagnetic Bandgap Structures
A. A. Hurshkainen1 , T. A. Derzhavskaya1 , Stanislav B. Glybovski1 , I. J. Voogt2 , I. V. Melchakova1 , C. A.
T. van den Berg2 , A. J. E. Raaijmakers2
1
ITMO University (Russia), 2 University Medical Center Utrecht (The Netherlands)
We experimentally characterize performance of so-called mushroom-type electromagnetic bandgap structures in parallel transceive body array coils for 7T MRI. We show that the manufacturing structure, though
reducing inter-element coupling, does not negatively affect the B1+ level and the penetration depth.
11:10 : An Anthropomorphic head phantom including both electromagnetic and NMR relaxation properties for ultra-high field MRI Applications: Preliminary results
Ana Luisa Neves1 , Nicolas Cochinaire1 , Alexandre Vignaud2 , Pierre Sabouroux1
1
Aix Marseille Universite (France), 2 CEA-Saclay (France)
There is a crucial need in the MRI research field, on one hand for realistic distributed biological tissue electromagnetic property phantoms for RF coil designers to validate prototypes and to assess SAR studies. On
the other hand,for phantoms with truthfully distributed biological tissue NMR relaxation properties such as
longitudinal and transversal relaxation time, respectively called T1 and T2 for pulse design and evaluation.
With this project, we intended to develop an accurate head phantom able to answer both claims.
11:25 - 12:10 — Benalmadena
Session 4A18
GEN10. Plasmon-enhanced photovoltaics, photocatalysis, and solar fuels
Chaired by: Peter Petrov
11:25 : Metamaterials for Solar Cell Applications
N. Sharac1 , R. Flynn1 , H. Kim1 , A. Makinen2 , L. Hirst1 , C. Ellis1 , P. Jenkins1 , P. Campbell1 , J. Owrutsky1 ,
J. Caldwell1 , O. Glembocki1
1
U.S. Naval Research Laboratory (USA), 2 Office of Naval Research (USA)
In this talk we present a light trapping metamaterial structure, consisting of metallic 1D and 2D gratings which
couple light through a thin insulating dielectric layer and into a thin doped transparent conducting oxide (TCO)
film, which forms a Schottky contact with Si. This configuration absorbs light in the visible through interband
transitions (normal operation) and uses hot electrons in the IR. The gratings show broad plasmon resonances
in the visible and near-IR range, where enhanced photocurrent is observed.
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11:40 : Plasmonic improvement of low cost anatase nanoparticles for dye sensitized solar cells
Mohamed M. Rashad, M. S. Sanad, A. E. Shalan
Central Metallurgical Research and Development Institute (Egypt)
A low cost mesoporous TiO2 nanoparticles has been synthesized using hydrothermal route based on TiOCl2
produced from Abu Ghalaga ilmenite ore, Egypt.
11:55 : Silver as Terbium-Yterbium sensitizer in glass and glass-ceramic thin films for photovoltaic
efficiency enhancement
Saloua Belmokhtar1 , Adel Bouajaj1 , M. R. Britel1 , J. Heminej2 , F. Enrichi3 , C. Armellini4 , G. Battaglin5 , F.
Belluomo6 , E. Cattaruzza5 , M. Ferrari4 , F. Gonella5 , A. Lukowiak7 , M. Mardegan5 , S. Polizzi5 , C. Sada8 ,
E. Trave4
1
Universite Abdelmalek Essaadi (Morocco), 2 Universite Hassan II (Morocco), 3 Veneto Nanotech (Italy), 4 CNRIFN (Italy), 5 Universita Ca’ Foscari Venezia (Italy), 6 Meridionale Impianti SpA (Italy), 7 Institute of Low Temperature and Structure Research (Poland), 8 Universita di Padova (Italy)
The aim of this paper is to study the possibility to improve the efficiency of solar cells by enhancing the excitation cross section of Tb3+/Yb3+ doped 70SiO2-30HfO2 glass and glass ceramic films using silver sensitizing
effect.
10:30 - 11:50 — Mijas
Session 4A19
SP13. Disordered photonics
Organized by: Rubén Gerardo Barrera and Augusto Garcia Valenzuela
Chaired by: Alejandro Reyes-Coronado and Ana Lilia Gonzalez-Ronquillo
10:30 : Invited talk
Anomalous light tunneling through two interlaced 3D metallic wire meshes
Hafssaa Latioui1 , Mario Silveirinha2
1
University of Coimbra (Portugal), 2 University of Lisbon (Portugal)
Three-dimensional connected metallic wire meshes are impenetrable by light in the long wavelength limit and
have an electromagnetic response similar to that of an electron gas below the plasma frequency. Surprisingly,
here we show when two of such meshes are spatially-interlaced the structure enables an anomalous light
tunneling in the long wavelength regime.
10:50 : Invited talk
Wide-field ultrafast imaging of light diffusion in structured soft matter
Simone Zanotto, Lorenzo Pattelli, Dmitry Nuzhdin, Sara Nocentini, Hao Zeng, Daniele Martella, Camilla
Parmeggiani, Diederik Wiersma
Istituto Nazionale di Ottica - Consiglio Nazionale delle Ricerche (Italy)
Following light motion in realtime is an enabling tool which allows to understand a number of details about
the interaction between a light beam and its environment. We report a new developed time-resolved widefield imaging system which allows to follow the light propagation on a millimeter scale and sub-picosecond
temporal resolution. The potentials of this method for the study of optically thin and anomalously structured
soft matter samples, such as vegetable skins or patterned polymer films, will be highlighted.
11:10 : Invited talk
Optical Reflectance of Plasmonic Nanoparticles forming a Disordered Monolayer
Alejandro Reyes-Coronado, Gesuri Morales-Luna, Omar Vazquez-Estrada, Augusto Garcia-Valenzuela,
Arturo Rodriguez-Gomez, Ruben Barrera
Universidad Nacional Autonoma de Mexico (Mexico)
We present theoretical predictions for the reflectance of a disordered monolayer of plasmonic nanoparticles
supported onto a glass substrate, in an internal reflection configuration, by using a recently derived multiple220
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scattering model for the coherent reflectance. To validate the theory, we compare the predictions with experimental reflectance data, both around the critical angle at a fixed wavelength of the incident radiation, as well
as measuring spectroscopic reflectance at fixed angle of incidence, using monolayers of gold nanoparticles.
11:30 : Invited talk
Fabrication of random optical diffusers with prescribed scattering properties using three-dimensional
printers
Alma Karen Gonzalez-Alcalde, Eugenio Rafael Mendez
CICESE (Mexico)
We report the design and fabrication of random optical diffusers with special characteristics using threedimensional (3D) printers. The designs are tested by computer simulations and the scattering properties of
the fabricated samples are evaluated experimentally.
11:50 - 12:45 — Mijas
Session 4A20
GEN18. Emerging applications and technologies
Chaired by: Juha Muhonen
11:50 : Invited talk
Tunable assembly of plasmonic nanoparticles for use as reversible mirrors and sensors
Leonora Velleman1 , Debabrata Sikdar1 , Yunuen Montelongo1 , Ye Ma1 , Yi Huang1 , James Million1 , William Pitchford1 , Vlad Turek1 , Steve Roser2 , Anthony Kucernak1 , Alexei Kornyshev1 , Joshua Edel1
1
Imperial College London (United Kingdom), 2 University of Bath (United Kingdom)
An (electro)chemical self-assembling, self-healing and renewable nano-plasmonic system is presented for
use as ultrasensitive Raman spectroscopic sensors and reversible optical mirrors.
12:10 : Invited talk
Nano-optomechanics with subwavelength light fields
Juha Muhonen, Rick Leijssen, Freek Ruesink, Lars Freisem, Giada La Gala, Randy Meijer, Rutger
Thijssen, Ewold Verhagen
FOM Institute AMOLF (The Netherlands)
Optomechanical interactions provide a wealth of opportunities to control optics and mechanics. We exploit
the extreme optomechanical interaction strengths offered by subwavelength field confinement to create large
optical forces and sensitive readout of mechanical motion. We show that in this large coupling regime, the
optomechanical transduction becomes highly nonlinear, even for thermal motion. This provides a path to
the creation of quantum states of motion. Moreover, these systems can be used to establish nonreciprocal
acoustic transport in optomechanical metamaterials.
12:30 : Enhancement of an Ultra-Wide Band Antenna System for Breast Cancer Detection using Metamaterials
Asma Mohamed Boudellioua, Mohammed Bait-Suwailam
Sultan Qaboos University (Oman)
Recently, microwave imaging brought attention as a promising method used for early breast cancer detection.
The working principle of microwave imaging is based on the dielectric contrast between the malignant tumor
tissues and the healthy ones. This paper presents a numerical study of a system based on ultra-wide band
antennas that detect the existence of cancerous tissues. In order to enhance the detection of such cancerous
tissues, the proper use of metamaterial inclusions with the antenna system is investigated.
10:30 - 12:30 — Alhaurin
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Session 4A21
SP9. Non-Hermitian engineering in photonics, plasmonics and metamaterial
Organized by: Ramy El-Ganainy and Liang Feng
Chaired by: Ramy El-Ganainy and Liang Feng
10:30 : Invited talk
Perfect compensation of absorption in metamaterials for diffraction-unlimited imaging
Wyatt Adams, Durdu Guney
Michigan Technological University (USA)
To overcome the resolution limit of conventional optics, near field imaging techniques using a negative index
flat lens (NIFL) have been previously developed that amplify the evanescent components of the incident
field. Here, a technique is developed and demonstrated to compensate for losses in a non-ideal NIFL by
determining the transfer function of the lens and subsequently applying the inverse to the unresolved raw
image. The result is a compensated image with sub-diffraction-limited resolution.
10:50 : Invited talk
lasing characteristics in parity-time symmetric microcavities
Mercedeh Khajavikhan, H. Hodaei, M.-A. Miri, M. Heinrich, W. Hayenga, A. U. Hassan, J. Ren, D. N.
Christodoulides
University of Central Florida (USA)
Parity-time (PT) symmetry has been recently utilized as a new means of mode selection in micro-cavity lasers.
Single-mode lasing is demonstrated in PT-symmetric micro-ring resonators that support several longitudinal
and transverse modes.
11:10 : Invited talk
Non-Hermitian Photonic Structures
Tsampikos Kottos
Wesleyan University (USA)
We will discuss non-hermitian photonic set-ups and illuminate on the dual role of loss as a source of absorption and enhanced reflection due to impedance mismatching. Applications along these lines will be discussed.
11:30 : Invited talk
Investigation of light transport for Non-Hermitian photonics in the silicon platform
Minghui Lu, Ye-Long Xu, Xue-Yi Zhu, Li Liu, Yi Zou, Xiao-Ping Liu, Yan-Feng Chen
Nanjing University (China)
Wave propagation in non-Hermitian system show numerous novel phenomena such as asymmetric diffraction, unidirectional invisibility and many more. In this talk, by using PT symmetry concept onto some active
devices, we can improve the performance of a PT laser based on erbium doped alumina waveguide by improving the gain by strategically using the optical loss and controlling the coupling strength between the gain
and loss regions.
11:50 : Invited talk
Controlling optical whispering galleries at exceptional points
Sahin Kaya Ozdemir, Lan Yang
Washington University in St. Louis (USA)
We will report our experiments on controlling the flow of light in high-quality whispering-gallery-mode (WGM)
resonators by bringing them to the vicinity of their exceptional points (EPs), which are characterized by the
coalescence of the eigenvalues and eigenstates of the system. We show that the effect of loss can be reversed, chirality of the light in WGMs can be controlled, and the emission direction of a WGM microlaser can be
selected at will at an EP.
12:10 : Invited talk
Observation of optically induced transparency in a micro-cavity
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Yuanlin Zheng1 , Xianfeng Chen1 , Li Ge2 , Wenjie Wan1
Shanghai Jiao Tong University (China), 2 College of Staten Island (USA)
1
We report on the observation of optically induced transparency (OIT) in a compact microresonator in an
ambient environment by introducing a four-wave mixing (FWM) gain to nonlinearly couple two separated
resonances of the micro-cavity. Its optical-controlling capacity and non-reciprocity characteristics at the transparency windows are also demonstrated. The FWM in microcavities can be described by an effective Hamiltonian whose square root singularity at an exceptional point enables a pseudo-Hermitian transition similar to
that in Parity-Time symmetry systems.
10:30 - 11:45 — Coin
Session 4A22
GEN1. Plasmonics and nanophotonics
Chaired by: Stephanie Law
10:30 : Stokes Polarimetry using Silicon Nanoantennas
Alba Espinosa-Soria1 , Francisco Jose Rodriguez-Fortuno2 , Amadeu Griol1 , Alejandro Martinez1
1
Universitat Politecnica de Valencia (Spain), 2 King’s College London (United Kingdom)
In this work, we present an on-chip polarimeter working at telecom wavelengths that obtains the full state of
polarization (SoP) of an incoming plane wave. The polarimeter has six outputs that allow for a direct synthesis
of the Stokes parameters. This outputs come from three silicon nanoantennas coupled to three waveguides,
so that each nanoantenna responds to a certain polarization state by changing the amount of optical power
coupled to each direction of propagation along the coupled waveguide.
10:45 : Optical properties of nanoparticle chains (Ag, Au, Ag-Au) embedded in a dielectric matrix
Alexandre Fafin, Senda Yazidi, Sophie Camelio, David Babonneau
Universite de Poitiers (France)
We investigate the optical properties of Ag-Au nanoparticle chains embedded in a dielectric matrix by the
FDTD method. We show that it would be preferable to use pure metal (Ag or Au), instead of Ag-Au, to obtain
a maximum field enhancement. We also study the optimal gap between nanoparticles to have a maximum
field enhancement at the capping layer/air interface. It appears that a compromise has to be found to reach
the best field-enhancement effect.
11:00 : Unravelling the optomechanical nature of plasmonic trapping
Pau Mestres, Johann Berthelot, Srdjan S. Acimovic, Romain Quidant
ICFO-Institut de Ciencies Fotoniques (Spain)
Self-Induced Back-Action (SIBA) trapping in nano-optical cavities has shown a unique potential for trapping
nanometer-sized objects under low optical intensities. In this work we present for the first time a direct experimental evidence of the self-reconfiguration of the optical potential experienced by a nanoparticle trapped in a
plasmonic nanocavity. Our observations enable us to gain further understanding of the SIBA mechanism and
boost the performance of SIBA-based nano-optical tweezers.
11:15 : Nanoparticle multilayers and colloidal solutions of silver nanoparticles synthesized by femtosecond pulsed laser ablation
Ovidio Pena Rodriguez1 , Pablo Diaz Nunez1 , Jesus Gonzalez Izquierdo2 , Guillermo Gonzalez Rubio2 ,
Gabriel Balabanian3 , Andres Guerrero Martinez2 , Antonio Rivera1 , Jose Olivares4 , Jose Manuel Perlado1 ,
Luis Banares2
1
Universidad Politecnica de Madrid (Spain), 2 Universidad Complutense de Madrid (Spain), 3 Carl Zeiss Microscopy GmbH (Germany), 4 CSIC (Spain)
In this work we report the synthesis of silver nanoparticles by Femtosecond Pulsed Laser Ablation. Those
nanoparticles can be either deposited on a substrate (and subsequently embedded) or obtained as a colloidal
solution. In both cases the nanoparticles have spherical shapes with an average diameter around 6 nm and
a narrow size distribution.
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11:30 : Quantum Plasmonics with Finite Carbon Nanotubes
Sandra de Vega Esteban, Joel Douglas Cox, Javier Garcia de Abajo
ICFO - The Institute of Photonic Sciences (Spain)
In this work we study finite size effects of highly doped CNTs on their optical spectrum and compare classical
and quantum approaches to describe these structures. We focus on the investigation of the strength of the
interaction of a CNT plasmon with quantum emitters, as well as the interaction between two emitters mediated
by that plasmon.
10:30 - 11:30 — Blanca
Session 4A23
GEN13. Nanobiophotonics
Chaired by: Robert Halir
10:30 : Single bacteria identification with an optical silicon microcavity
Manon Tardif, Jean-Baptiste Jager, Christophe Pin, Emmanuel Picard, Emmanuel Hadji, David Peyrade
University Grenoble Alpes (France)
SOI optical microcavities provide an extremely effective confinement of the electromagnetic field, spectrally
and spatially. The evanescent field of these structures allows trapping, assembly, handling and sorting of
colloidal objects in optofluidic devices. In this work, we show its efficiency to trap bacteria at the single level
in order to identify their nature.
10:45 : Octupolar Metastructures for a sensitive detection of bacteriophages by surfaced enhanced
Raman spectroscopy
Massimo Rippa1 , Riccardo Castagna1 , Marianna Pannico2 , Pellegrino Musto2 , Rubina Paradiso3 , Giorgia Borriello3 , Jun Zhou4 , Joseph Zyss5 , Lucia Petti1
1
Institute of Applied Sciences and Intelligent Systems E. Caianiello (Italy), 2 Institute for Polymers, Composites and Biomaterials (Italy), 3 Istituto Zooprofilattico Sperimentale del Mezzogiorno (Italy), 4 Ningbo University
(China), 5 Ecole Normale Superieure de Cachan (France)
Surface-Enhanced Raman Spectroscopy (SERS) on Au-octupolar metastructures with precisely controlled
size and spacing fabricated via electron beam lithography is investigated. This SERS substrate shows high
efficiency at 785 nm excitation in the detection of 4-Mercaptobenzoic acid (4-MBA). Our plasmonic functionalized nanostructures have been tested for sensing of bacteriophages. Here we show that coating Au-octupolar
metastructures with 4MBA can provide label-free analysis of bacteriophages via surface-enhanced Raman
spectroscopy (SERS) leading to a = 9-fold increase in SERS enhancement.
11:00 : Electrical Detection of miRNA using Photoconductance in Plasmonic Nanowire
Jihye Lee, Jeong Hyeon Kim, Jong-Souk Yeo
Yonsei University (Korea)
Here, we have demonstrated the electrical sensing platform of miRNA based on the plasmon coupling effect
between nanowire and nanoparticle by measuring the change of photoconductance in plasmonic nanowire at
the presence of hybridizing miRNA.
11:15 : Enhanced molecular overtone absorption by light-on-a-chip
Alina Karabchevsky1 , Alexey Kavokin2
1
Ben-Gurion University (Israel), 2 University of Southampton (United Kingdom)
The diusion of light by random materials is an established phenomenon. Herewe show the giant enhancement
of the absorption of light on a glass chip. Due to the elasticscattering, optical information in organic material
we study is preserved. Our results pave theroad to the new disorder based optical sensors for detection of
explosive materials and diagnosticsof psychoactive stimulants based on amines.
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10:30 - 12:00 — Sierra Nevada
Session 4A24
GEN8. Metamaterial-based devices and antennas
Chaired by: Yong Jin Zhou
10:30 : Wideband Metasurface Energy Harvester
Mohamed El Badawe, Ali Albishi, Omar Ramahi
University of Waterloo (Canada)
We present wideband metasurface for electromagnetic energy harvesting and wire-less power transfer. The
metasurface is composed of crescent shaped Split-Ring Resonators (CS-SRRs). Aecting the current path
lead to an inductance that varies with frequency, thus yieldingwideband frequency response. For validation,
we designed an array of a 9 x 9 resonators, andshowed through numerical simulation that appreciable power
conversion eciency and bandwidthenhancement compared with harvester arrays reported in the literature.
10:45 : Microstrip Patch Antenna Gain Enhancement using FSS Radome for Millimeter-waves Applications
Sidali Attachi , Shaker Saleh, Mouloud Bouzouad
Telecommunications, Signals and Systems Laboratory (Algeria)
A high gain patch antenna using multilayer layers FSS radome operating at 43.5 GHz is proposed. FSS
radome unit is placed in the near-field region of the microstrip patch antenna (MPA), to improve the antenna
gain and directivity. The gain is improved by 9.4 dBi compared to patch antenna alone.
11:00 : Design, Fabrication and Testing of Negative Index Metamaterials for X, Ku, and K Microwave
bands
David Lee1 , James Vedral2 , Randall L. Musselman3 , Anatoliy Pinchuk2
1
The MITRE Corporation (USA), 2 University of Colorado (USA), 3 U.S. Air Force Academy (USA)
Metamaterials with negative index of refraction have potential to improve the efficiency and reliability of microwave systems, such as antennae and radomes. However, high losses and narrow frequency band of most
negative index metamaterials hamper practical applications of these novel materials. In this work we present
our recent theoretical and experimental results of the design, fabrication and testing of low-loss and wide
band negative index metamaterials for X, Ku, and K microwave frequency bands.
11:15 : Wood zone plate lens based on fishnet metamaterial
Bakhtiyar Orazbayev1 , Miguel Navarro-Cia2 , Miguel Beruete1
1
Public University of Navarre (Spain), 2 University of Birmingham (United Kingdom)
A study of a low-profile hybrid Wood zone plate fishnet metamaterial lens working at f = 99 GHz is presented.
The use of fishnet metamaterial with effective refractive index close to zero (n = 0.51) as a medium for Fresnel
zones allows to reduce the reflections from the metalens and increase the overall efficiency, while maintaining
low profile, low cost and ease of manufacturing. The performance of metalens was analyzed numerically and
confirmed experimentally, demonstrating a good agreement.
11:30 : Gold nanotube metamaterial for plasmonic cavity resonator
Junxi Zhang1 , Junfeng Wang1 , Cheng Zhang2 , Haojie Song1 , Pei Wang2 , Yonghua Lu2 , Guangtao Fei1 ,
Lide Zhang1 , Lin Zhang3
1
Chinese Academy of Sciences (China), 2 University of Science and Technology (China), 3 Aston University
(United Kingdom)
We present a plasmonic cavity resonator based on a gold nanotube array embedded in an anodic aluminum
oxide membrane. The gold nanotube metamaterial performs multipolar resonance modes of surface plasmons. Furthermore, FDTD simulation demonstrates the electric fields of the longitudinal resonance modes
are focused on the interfaces between the aluminum oxide and the gold nanotubes, which exhibit obvious
standing-wave modes with high-order harmonics, thus the gold nanotube metamaterial can be worked as a
plasmonic cavity resonator.
11:45 : Electronically tunable band-stop filter based on spoof plasmonic waveguide
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Qian Xun Xiao, Yong Jin Zhou
Shanghai University (China)
A band-stop filter based on spoof plasmonic waveguide loaded with split ring resonator (SRR) has been
demonstrated. It has been shown that by introducing the varactor diode, the resonant frequency of the filter
can be electronically tuned by varying the reverse voltage on the diode. The numerical simulations verified
that tunable resonant frequency of the filter varies when the bias voltage is changed. Such tunable plasmonic
filter could find potential applications in integrated circuits at the microwave/terahertz frequencies.
226
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Index
Index
A Rahim Hasliza : 3P1
A. Majid Huda : 1P2, 3P1
A. Rahim H. : 3P1, 3P1
A. Rahim Mohamad Kamal : 1P2, 1P2, 3P1
A. Rahim Mohamad Kamal Bin : 1A41, 3P1
Abargues R. : 2P2
Abbott Derek : 2A4
Abdeddaim Redha : 4A8, 4A8
Abdelatty Mohamed Youssef : 1P1
Abdul Majid Huda Bin : 3P1
Abdul Rahim Sharul Kamal : 3P1
Abdullah Muhammad Azfar Bin : 3P1
AbdulMalek MohamedFareq : 3P1
Abujetas Diego R. : 2A18
Achaoui Younes : 2A12
Achilleos Vassos : 3A40
Achmari Panji : 2A20
Achour Maha : 4A11
Acimovic Srdjan S. : 4A22
Adam Pierre Michel : 2A18
Adam Pierre-Michel : 2A7, 4A4
Adamo Giorgio : 2P2
Adams Wyatt : 4A21
Addouche M. : 2A27
Adibi Ali : 4A16
Adikan Rafik : 4A16
Adler Hilmar : 1A24
Aeschlimann M. : 3A39
Afanasev Konstantin : 2P2
Agrawal A. : 1P1
Aguila Pau : 4A11
Aguirregabiria Garikoitz : 2A8
Ahmad Fauzan : 1A27, 2P1
Ahmad R. B. : 2P2
Ahmed Waqas Wasseem : 1A8
Ahn Hyeyoung : 1A4
Ahn Wonmi : 2A18
Ahn Yeong-Hwan : 2A32
Ailloud Quentin : 1P1
Aizpurua Javier : 1A2, 1P2, 2P1, 2A8, 2A14, 3A10
Akbari Marjan : 3P2
Akbarzadeh Alireza : 3A12
Akhlaghi Mohsen : 3A28
Akimov Alexey : 2A11
Akimov I. A. : 3A11
Akimov Ilya A. : 2A7
Akjouj Abdellatif : 1P1
Akkermans E. : 3A5
Akkermans Eric : 1A3
Aksun M. I. : 1P1
Al-Attili Abdelrahman Zaher : 3A19
Al-Hadi A. A. : 3P1
Al-Khuzheyri R. : 4A5
Al-Naib Ibraheem : 3A6
Alagappan Gandhi : 3A17
Alam Ahsan : 3A22
Alam Mohammad Z. : 1A2
Alam Touhidul : 1A26, 3P1
Alameh Kamal : 1A12
Albella Pablo : 1A15
Alberti Andrea : 3A22
Albishi Ali : 4A24
Albishi Ali M. : 3P1
Alford Neil : 4A6
Algorri Francisco : 1A15, 2P1
Algorri Jose Francisco : 1P2, 3P2
Ali Muigahid : 4A6
Allein Florian : 1A22
Almeida Euclides : 3A9
Almoneef Thamer : 3P1
Almpanis Evangelos : 1A40
Alonso Ramos Carlos : 2A29
Alonso-Gonzalez Pablo : 1A23
Alonso-Ramos C. : 4A16
Alonso-Ramos Carlos : 1A12, 3A8, 3A8, 3P2, 3P2,
3A32
Alpeggiani Filippo : 3P1
Alqadami Abdulrahman Shueai Mohsen : 2P1, 2P1
Altamura Davide : 1A37
Altares Menendez Galaad : 1P1
Altug Hatice : 4A13
Alu Andrea : 1P2, 2A26, 3A1, 3A9, 3A21
Alvarez-Puebla R. A. : 1A30
Alwakil Ahmed : 2A27
Amadon Alexis : 4A8
Ambichl Philipp : 1A20
Amo A. : 3A5
Amoah Timothy : 3A10
Amra Claude : 1P1, 1A29, 2A27
Anane A. : 1A10
Anane Abdelmadjid : 3P2
Anderson Brian P. : 2A25
Andrae Patrick : 1P2
Andreoli Daria : 1A9
Andrews Aaron : 1A27
Andrews David L. : 2A23
Andrianov Eugeny Sergeevich : 3P1, 3P1
Andrianov Evgeny : 2A28
Andrieu Stephane : 3P2
Androvitsaneas P. : 4A5
Androvitsaneas Petros : 3A27
Andryieuski Andrei : 2A24
Angermann Marie-Christine : 3A10
Anlage S. M. : 3A27
Anokhin Maxim : 2P1
Antognazza Mariarosa : 1A37
Anton C. : 2A3
Antonakakis Tryfon : 2A27, 4A8
Antosiewicz T. : 3A25
Antosiewicz T. J. : 2A30
Aouani Heykel : 3A26
Aradian Ashod : 2A24
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Arbouet Arnaud : 3A4
Ardron Marcus : 3P1
Arenal Raul : 1A22
Argyropoulos Christos : 1A28
Argyros Alexander : 2P1, 2A24
Armelles Gaspar : 1A10, 1A22
Armellini C. : 4A18
Arnob Md Masud : 3A20
Arnold Cord : 3A4
Arreola-Lucas Arturo : 2A27
Arruda Tiago Jose : 2A26
Artoni Pietro : 2A17
Aryaee Panah Mohammad : 2A24
Arzhannikov Andrey V. : 1A40
Asano Takashi : 1A12
Ash Benjamin James : 2P2
Ashoor Ahmed : 2P1
Aslan Ekin : 1P1
Astafev Mikhail A. : 1A40
Astapenko Valeri A. : 1A13
Astilean Simion : 1P2, 2P2
Atangana J. : 3P1
Atangana Jacques : 2P1
Attachi Sidali : 4A24
Attachi S. : 3P1
Atwater H. A. : 3A13
Atwater Harry : 3A1, 3A9
Audibert J. F. : 2A2
Auer-Berger Manuel : 3A8
Auffeves A. : 2A13
Aun N. F. M. : 3P1
Avayu Ori : 2A31
Axt V. M. : 3A23
Ayop Osman : 1P2
Ayop Osman Bin : 2A32
Ayop Osman bin : 2P1
Ayoub Ahmad Bassam : 3A11
Ayzatskiy Mykola I. : 3A13
Azad Abul K. : 2A4
Aziz Mustafa : 1A43
Aziz Nor Azizan : 3P1
Aznavourian Ronald : 2A27
Babale Suleiman Aliyu : 3P1
Babicheva Victoria : 2A24
Babiker Mohamed : 1A43, 2A23
Babocky Jiri : 3P1
Babonneau David : 4A22
Baboux Florent : 3A5
Bachelier G. : 3A11
Bachelot Renaud : 1A30, 2A14
Badawi Mohamed Ismail : 3A38
Badea A. : 4A13
Badr Y. A. : 1P2
Bae Dukkyu : 1P1
Bae Kyuyoung : 1A11
Baets Roel : 3A11, 3A29
Baez Gabriela : 2A27
Baffou Guillaume : 4A15
Index
Bag Ankan : 3P2
Bagci Hakan : 1A18
Bahauddin Shah M. : 2A22
Bahsine S. : 3P1
Bahsine Saida : 2P1
Bai Benfeng : 1A5, 4A1
Bailly Christian : 3P1
Bailo Elena : 2A21
Bait-Suwailam Mohammed : 4A20
Bakhti Said : 1A30
Bakker R. M. : 1A35
Bakkers E. P. A. M : 3P2
Bakr Mohamed : 1P2
Balabanian Gabriel : 4A22
Balcytis Armandas : 1P1, 1A25
Baldacci Lorenzo : 3P1
Baldycheva Anna : 2A21
Ballauff Matthias : 1P1
Ballesteros-Garcia G. : 4A5
Ballout Fouad : 3P2
Banares Luis : 4A22
Bandres Miguel A : 1A16
Bandres Miguel A. : 3A21
Bange Sebastian : 2A30
Bannerman Rex : 3A28
Banzer P. : 2P1
Banzer Peter : 1A7, 3P2, 3P2
Bao Ying : 3A27
Bar David Jonathan : 3A8
Barak Assaf : 1A3
Baraldi Giorgio : 1A30
Baranov Alexander : 1A30
Baranov D. A. : 3A41
Baranov M. : 3A18
Baranowski M. : 2A21
Barat David : 1P1
Barba Ismael : 2P1
Barbillon Gregory : 1P1
Bardosova Maria : 3A29
Barik Avijit : 4A4
Barik S. : 4A3
Barkissy Driss : 2P2, 3A41
Barnett S. M. : 3A7
Barnett Stephen : 2A1, 2A23
Barois Philippe : 1A11, 2A24
Baron Alexandre : 1A11, 1A33, 2A24
Barreda Angela Inmaculada : 2A18
Barrera Ruben : 4A19
Barrera Ruben G. : 4A9
Barrera Ruben Gerardo : 4A9
Barron Laurence D. : 2A22, 3A7, 3A14
Bartal Guy : 3A14
Bartenlian Bernard : 1P1
Basabe-Desmonts Lourdes : 2A14
Baselli Milena : 1P2
Baselli Milena Luisa : 1A19
Basilio Lorena : 3A6
Basiri Ali : 4A12
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Basov D. N. : 4A2
Basov Dimitri N. : 2A24
Basov Dmitri : 1A38
Battaglin G. : 4A18
Batthacharya A. : 2A8
Bauch Martin : 1P2
Baudin Emmanuel : 3A5
Baudrion Anne-Laure : 2A7
Baumberg Jeremy : 1P2, 3P2
Baumberg Jeremy J. : 1A2, 2A9
Bautista Godofredo : 1A37
Bayer M. : 3A11
Bayer Manfred : 2A7
Bazuin C. G. : 3A20
Beaskoetxea Gartzia Unai : 1P2
Beccherelli Romeo : 1A2, 1P2, 3A11
Bedu Frederic : 1A40
Beechem T. E. : 3A33
Beere Harvey : 3A25
Begaud Xavier : 1A32
Beggs D. M. : 4A5
Beggs Daryl : 3A27
Bekenstein Rivka : 3A25
Belaid Leila : 2P1
Beland Paul : 4A16
Belardini Alessandro : 1A18, 2P1
Bellieud Michel : 2A27
Bellioua Mohammed : 2P2
Belluomo F. : 4A18
Belmokhtar Saloua : 4A18
Belotelov V. I. : 3A11
Belotelov Vladimir : 1P1, 1A10, 1A12, 3P2
Belotelov Vladimir I. : 2A7
Belousov Sergei : 2P2
Belov P. A. : 3A18
Belov Pavel : 1A41, 2A24, 3P2
Belov Pavel A. : 1A33
Benedikovic D. : 4A16
Benedikovic Daniel : 2A29, 3A19, 3A32
Benisty Henri : 1A20
Benjo da Silva Mauricio Weber : 1P2
Bennett Anthony J. : 3A15
Bensafieddine Djalaleddine : 3P1
Benson Oliver : 1P1, 2A28, 3A24
Benson Trevor : 1A20
Benz Felix : 1P2, 3P2
Berezin Maksim : 2A23
Bergamini Luca : 2P1
Berini Pierre : 1A36, 2P1, 4A16
Berloff Natalia : 2A19
Bernard Gary D. : 4A12
Bernard M. : 2A16
Bernard R. : 1A10
Berry Samuel A. : 3A28
Bersch Christoph : 1A36
Berthelot Johann : 4A22
Bertin Herve : 1P1
Beruete Miguel : 1P2, 1P2, 1P2, 1A40, 3P1, 4A24
Index
Berzhansky Vladimir : 1A12
Besbes Mondher : 1P1
Besteiro Lucas V. : 1A6
Bezus Evgeni A. : 3P2, 3P2
Bhaskaran Harish : 2P2
Bhatia Charanjit Singh : 4A15
Bhattacharya Nandini : 3A6
Bhattarai Khagendra : 3P2
Biagioni Paolo : 1A19, 1P2
Bidault Sebastien : 1A4, 3P2
Biermann Klaus : 1A22
Bijeon Jean-Louis : 1A7, 4A4
Binder R. : 3A5
Bird J. P. : 3A6
Birindelli Simone : 3A15
Bisht Ankit : 2A2
Blaikie Richard : 3A37
Blair S. : 1P1
Blanco Alvaro : 1A35
Bleckmann Felix : 3A22
Bloch J. : 3A5
Bludov Yuliy : 1A8
Bo Fang : 1A31
Bochenkov Vladimir E. : 2A21
Bochkova Elena : 1A40
Bodelon Gustavo : 3A34
Bogdanov Andrey : 3P2, 3A41
Bogdanov Simeon : 2A11
Bogdanova Maria : 2P2
Boginskaya Irina : 2P2
Bohm Julian : 4A10
Boltasseva Alexandra : 1A2, 2A8, 2A11, 2P2, 2P2,
3A9, 3A23, 3P2, 4A6, 4A11
Bonache Jordi : 3P1, 4A11
Bondareff Pierre : 1A25
Bonifazi Marcella : 1P2
Bonod N. : 2A23
Bonod Nicolas : 2A14, 3P1, 3A23, 3P2
Boriskin Victor : 3A13
Boriskina Svetlana V. : 2A18, 3A13
Borisov Andrei : 2A8
Borriello Giorgia : 4A23
Bortolotti P. : 1A10
Borzda Tetiana : 1A37
Bosca Alberto : 1A28
Bose Ranojoy : 3A28
Bosman Michel : 3A4
Botey Muriel : 1A8
Bottomley Adam : 1A25
Bouajaj Adel : 4A18
Boubakri Akram : 1A40
Boubanga Tombet Stephane : 1A28
Boucaud Philippe : 2P2
Bouchet Dorian : 3P2
Bouchoule Sophie : 2A25, 2A25
Boudellioua Asma Mohamed : 4A20
Bouhelier A. : 3A4
Bouhelier Alexander : 3P1
229
META’16 Malaga Program
Bouhelier Alexandre : 1P1, 1A6, 2A14, 3A4
Boulais Etienne : 3A22
Boulier Thomas : 1P2
Boutopoulos Christos : 3A22
Boutramine Abderrazak : 2P2, 3A41
Bouzouad Mouloud : 4A24
Bouzouad M. : 3P1
Bowman Robert : 3P2, 3A37
Bowman Robert M. : 4A6
Boyd R. W. : 1A2
Boyd William Taylor : 2A32
Bozhevolnyi Sergey I. : 1P1, 1A34
Bracher David O. : 1A12
Braeuninger-Weimer Philipp : 3A25
Braic Laurentiu : 4A6
Bramati Alberto : 1P2
Brandl F. : 1A10
Brandstotter Andre : 1A20
Brar V. W. : 3A13
Brasselet Sophie : 1A21
Brauer Annika : 1A30
Braun Kai : 1A24
Bravo-Abad J. : 1A28
Bravo-Abad Jorge : 1A33
Bregar Anja : 2P1
Breinbjerg Olav : 3P2
Brener Igal : 3A6
Brennan Lorcan : 2A21
Brida Daniele : 1A6, 1A37
Brimont Christelle : 2P2, 2A25, 2A25
Britel M. R. : 4A18
Bromberg Yaron : 1A21, 4A5
Brongersma M. L. : 3A13
Brongersma Mark L. : 3A26
Brotons-Gisbert M. : 4A5
Bruck Roman : 1A18
Brule Stephane : 2A12, 2A27
Brule Yoann : 1P1
Bruzas Ian : 3P2, 4A13
Bryche Jean-Francois : 1P1
Brzobohaty Oto : 2P2
Bucio Thalia Dominguez : 3A19
Budashov Igor : 2P2
Bulgakov Evgeny : 2P1, 3A18
Buonaiuto G. : 2A19
Buranasiri Prathan : 2P1
Buret M. : 3A4
Burger S. : 2A28
Burger Sven : 3P2
Burokur Shah Nawaz : 1A40, 3A33, 4A11
Bursi Luca : 1A39
Busch Kurt : 1P1, 1A7
Bushell Mike : 1A25
Butakov N. A. : 4A2
Butet Jeremy : 2A7
Butylkin Valery : 1P2, 3P1
Bychkov Igor : 2P2, 3P2
Bykov Dmitry A. : 1A31, 2A26, 3P2
Index
Cadeddu Davide : 4A5
Cadusch Jasper : 2A20
Caglayan Humeyra : 2A5, 2A32
Cai Tao : 3A28
Cai Xinlun : 4A14
Cai Yong-Jing : 3A25
Caldarola Martin : 1A19
Caldwell J. : 4A18
Caldwell Joshua D. : 2A24
Caligiuri Vincenzo : 2P1, 2A11
Calle Fernando : 1A28
Callegari A. : 1A29
Calvillo Vazquez Juana Gabriela : 2A18
Calvo M. L. : 4A16
Calvo Maria : 3A19
Calvo Maria L. : 3A32
Calzolari Arrigo : 1A39, 1A39
Camarillo I. : 4A9
Camayd-Munoz Philip : 1A42, 3A24
Camelio Sophie : 4A22
Cameron Robert : 2A23
Cameron Robert. P. : 3A7
Caminita Francesco : 3P2
Camino Fernando : 4A12
Campbell P. : 4A18
Campione Salvatore : 2A11, 3A6
Campu Andreea : 1P2
Canaguier-Durand Antoine : 1A9
Cancellieri Emiliano : 1P2, 2A19
Cancelliery E. : 2A19
Cano Garcia Helena : 3A38
Cantarella Giuseppe : 3A28
Canva Michael : 1P1
Cao Hui : 1A21, 1A21
Cao Wei : 3A8, 3A8
Capasso Federico : 3A12, 3A26, 3A27, 4A2
Caputo Roberto : 1A30
Cardin Andrew : 3A3
Carlen Edwin : 2P1, 2P1, 2P1
Carmele A. : 2A28
Carminati Remi : 1P1, 1A9, 1A29, 3A10
Carnegie Cloudy : 3P2
Carnemolla Enrico : 2P2, 3P2
Carnemolla Enrico Giuseppe : 3A23
Carpenter Lewis G. : 3A28
Cartarius Holger : 2A16
Carusotto I. : 2A16
Carusotto Iacopo : 1A16, 2A25, 2A25
Casaburi Alessandro : 3A28
Caspani Lucia : 2P2, 3A23, 4A5
Cassan Eric : 1A12, 2A29
Casse Bernard D. : 4A11
Castagna Riccardo : 4A23
Castello-Lurbe David : 2A29
Castells David : 1P1
Castro Wagner : 2P2
Cataldi Ugo : 1A30
Catellani Alessandra : 1A39
230
META’16 Malaga Program
Index
Cattaruzza E. : 4A18
Chen Wei Ting : 2A4, 4A2
Cavalcanti Solange Bessa : 2P1, 3A24
Chen Wei-Liang : 1A4
Cebollada Alfonso : 1A22
Chen Wenjie : 1A16
Celebrano Michele : 1A19, 1P2
Chen Xianfeng : 4A21
Cernescu Adrian : 1A24
Chen Xianzhong : 1A34, 3P1
Cerullo Giulio : 1A19, 1A37, 1A37, 3P2
Chen Xiaodong : 2A2, 2A32
Cervera Francisco : 2A27
Chen Xiaoshu : 4A4
Cesarini Gianmario : 2P1
Chen Xiaoshuang : 1P2, 1A40
Chaker S. M. : 3P1
Chen Xingxing : 3A37
Chan C. T. : 1A16, 2A27, 3A12
Chen Xuewen : 2A30
Chan Hsun-Chi : 1P2
Chen Yan-Feng : 4A21
Chan K. P. : 3A5
Chen Yanfeng : 3A36
Chan Kinlong : 1A34, 3P1
Chen Yi-Hao : 4A2
Chang C. L. : 1A22
Chen Zhi Ning : 3P2
Chang Chia-Lin : 1A22
Chen Zhigang : 1A3, 3A18
Chang Chun-Chieh : 2A4
Cheng Jierong : 4A2
Chang Kai Hao : 1P2, 1A39
Cheng Min Hsiu : 1A39
Chang Long : 1A36
Cheng Qingqing : 2A20
Chang Taeyong : 3A20
Cheng Ya : 1A5
Chang Yu-Ming : 1A4
Cherkaoui Eddeqaqi N. : 3P1
Chasse Thomas : 1A24
Cherkaoui Eddeqaqi Noureddine : 2P1
Chatelon J. P. : 3P2
Chervy Thibault : 1A25
Chaudhary Raghvendra P. : 2P1
Chiang Tsung-Yu : 2P2
Chaudhuri Krishnakali : 3A9
Chigrin Dmitry N. : 2A18
Chauvet N. : 3A11
Chikkaraddy Rohit : 1P2, 3P2
Chazel Edouard : 4A8
Chirumamilla Manohar : 2P1, 4A1
Cheah Kok Wai : 1A34
Chirvony V. : 2P2
Cheah Kok-Wai : 2A4
Chmelik Radim : 3P1
Cheah KokWai : 3P1
Cho Hyunjun : 3A34
Cheben P. : 3A32
Cho Seung Hyun : 2A12
Cheben Pavel : 2A29, 3A8, 3A8, 3A8, 3A19, 3A19, Cho Suehyun : 1A11
3A19, 3P2, 3P2, 3A32, 4A7, 4A16
Cho Yongjin : 1P2
Chebykin Alexandr V. : 2A24
Choi M. : 3A13
Checoury Xavier : 2P2
Choi Muhan : 2P1
Chen B. : 2A21
Choi Youngsun : 2P1, 3A24
Chen Bao-Qin : 3P1
Chong Yidong : 1A3
Chen C.-F. : 3A26
Choo Hyuck : 3A34
Chen Che-Chin : 2P1
Choubeni F. : 1A40
Chen Ching-Fu : 4A2
Choudhury Sajid : 3A9
Chen Gang : 2A18, 3A13
Choy Wallace : 4A16
Chen H. : 1A17
Christakis Lysander : 3A24
Chen Hong : 3A18, 3P2
Christensen Johan : 2A6, 2A27
Chen Hou-Tong : 2A4
Christensen Thomas : 2A5
Chen Huanjun : 1P1, 2A2, 2A21
Christiansen Silke : 3A39
Chen Hung-Ying : 1A4
Christmann G. : 2A25
Chen Jia-Wern : 4A2
Christodoulides D. N. : 4A21
Chen Jing : 1P1, 1P1
Christodoulides Demetrios : 1A20, 1A36, 3A36
Chen Kuo-Ping : 1A40
Christodoulides Demetrios N. : 1A1, 1A36, 3A21,
Chen L. : 3A8
4A10
Chen Lin : 4A16
Chrostowski Lukas : 3A19
Chen Min : 2A32
Chtchelkatchev Nikolay : 2A28
Chen Ming : 1A34, 3P1
Chu Che-Kuan : 3A20
Chen Mu-Ku : 4A2
Chu Cheng Hung : 4A2
Chen Pai-Yen : 1A18, 1A28, 3A3, 3P2
Chu Chih-Ken : 3A20
Chen Qin : 1A27
Chu HongChen : 3P1
Chen S. Q. : 1P1
Chudnovsky Eugene M. : 1A22
Chen Shumei : 1A34, 2A4, 3P1
Chumak Andrii V. : 3P1
Chen Ting-Yu : 4A2
Chung U-Chan : 1A23
231
META’16 Malaga Program
Chvatal L. : 2P2
Ciccacci Franco : 1A19
Cicco Stefania Roberta : 3A31
Ciesielski Richard : 1P2
Ciraci Cristian : 1A2, 1A13
Ciuti Cristiano : 3A5
Clark J. Kenji : 1A13
Claudon Julien : 2A9, 4A5
Claverie Jerome : 2A22
Cleary Olan : 1A30
Clements Robert : 3A2
Clemmen Stephane : 3A29
Clerici Matteo : 2P2, 2P2, 3A23, 3P2
Climente Alfonso : 2A27
Cluzel Benoit : 1A6
Cochinaire Nicolas : 4A17
Colas des Francs Gerard : 1P1, 1A6, 3A4
Cole Justin : 3A36
Coles D. : 2A25
Coletti Camilla : 3P1
Colman Pierre : 1P2
Colodrero Silvia : 3A22
Colquitt D. : 2A27
Combrie S. : 3A15
Comesana-Hermo Miguel : 3P2
Comin Alberto : 1P2
Cong Longqing : 3A6
Constant Colin : 1A29
Contreras-Tello Humberto : 4A9
Cooke G. : 3P2, 3P2
Cooke Graeme : 2A22, 3A7, 3A14
Cooper Peter A. : 3A28
Corbett Brian : 3A4
Corni Stefano : 1A39
Correa-Duarte Miguel A. : 1A14
Correa-Duarte Miguel ingel : 3P2
Corredera Pedro : 3A19
Cortes-Lopez Silvia : 1P2
Costa Joao : 3A24
Cotrufo Michele : 1P2, 2P2
Cottancin Emmanuel : 1A7
Coursault Delphine : 3A27
Cox Joel Douglas : 2A7, 4A22
Coyle Jason P. : 1A25
Craciun Ana : 1P2
Craciun Ana Maria : 2P2
Craciun Monica : 2A21, 2P2
Craster R. V. : 2A27
Craster Richard : 2A27, 3A29
Creagh Stephen C. : 1A20
Croitoru M. D. : 3A23
Cros V. : 1A10
Crut Aurelien : 1A19
Csaki A. : 4A13
Ctyroky Jiri : 2A29
Cuadrado A. : 1P2
Cuadrado Alexander : 1A11, 1A15, 2P1, 3P2
Cuche Aurelien : 1P1, 1A6, 2A14, 3A4
Index
Cuerda J. : 1A33
Cui A. J. : 2A16
Cui Jiao : 1A31
Cui Tiejun : 3P2
Cui Yiping : 3A29
Cumming David : 1A27
Cwilich Gabriel A. : 2A10
Czyszanowski T. : 3A32
D’Agostino Stefania : 1A13
D’Andrea Cristiano : 2A17, 2A17
Dadap J. I. : 4A7
Dado M. : 4A16
Dado Milan : 2A29, 3A19, 3A32
Dagens Beatrice : 1P1
Dagesian Sarkis : 3P2
Dagesyan Sarkis : 1A12
Dai Haitao : 3A17
Dai Qiao-Feng : 3A18
Dai Shuowei : 1A13
Dai Siyuan : 2A24
Dal Conte Stefano : 1A37
Dalacu D. : 1A39
Dalsania Ankur : 3A37
Damasceno Pablo F. : 3A10
Danckaert Jan : 3A12
Danesh Mohammad : 1A28
Danhel Ales : 1P1
Danlee Yann : 3P1
Danner Aaron J. : 3A12, 4A15
Dantelle G. : 3A11
Dao Thang Duy : 4A15
Daquin Priscillia : 1P2
Dastmalchi Babak : 3A37
Dathe A. : 4A13
Davanco Marcelo : 3A28
David J. : 1A40
Davids P. : 3A33
Davids Paul S. : 3A13
Davidson II Roderick B. : 3A4
Davies Alexander Giles : 3A9
Davis Matthew S. : 1P1
Davis Timothy : 2A20
Davy Matthieu : 1A21
de Aguiar Hilton B. : 1A21
de Alencar Sobreira Fernando Wellysson : 1A25
De Angelis Costantino : 1A19
De Angelis Francesco : 4A1
De Bernardis D. : 2A3
De Corny M. Ethis : 3A11
de Dood M. J. A. : 1A18
de Groot Kees : 1A18, 2P1
de Lasson Jakob Rosenkrantz : 3P1, 3A15, 3P2
De Leon I. : 1A2
De Liberato S. : 3A5
de Luca Andrea : 1A41
De Luca Antonio : 2P1, 2A11
de Lustrac Andre : 1A40, 3A33, 4A11
de Matos Leni Joaquim : 1P2
232
META’16 Malaga Program
de Nijs Bart : 3P2
de Rosny Julien : 4A8
De Rossi A. : 3A15
De Santis L. : 2A13
De Sio Luciano : 1A30
de Sousa Nuno : 1A9, 1A15
de Vega Esteban Sandra : 4A22
De Wilde Yannick : 3P2
Debarre Anne : 1A19
Debnath Kapil : 3A19
Debuisschert T. : 3A15
Deen M. Jamal : 1P2
Defienne Hugo : 1A9
Degl’Innocenti Riccardo : 3P1, 3A25
DeGottardi W. : 4A3
Del Fatti Natalia : 1A19
Del Sorbo Salvatore : 2A17
del Valle Elena : 3A5, 3P2
del-Hougne Philipp : 2A6
Delage Andre : 3A19
Delcorte Arnaud : 3P1
Delteil Aymeric : 4A5
Demesy Guillaume : 1P1, 2A14
Demetriadou Angela : 1A2, 1P2
Demichel Olivier : 1A6
Demory J. : 2A13
Dems M. : 3A32
Deng Jie : 3A9
Deng Tiansong : 3A7
Deng Zi-Lan : 1A34
Denisyuk Igor : 1P1
Derzhavskaya T. A. : 4A17
Descheemaeker Lana : 3A12
Desiatov Boris : 3A8
Destouches Nathalie : 1A30
Detz Hermann : 1A27
DeVault Clayton : 1A2, 2P2, 3A23
Deveaud Benoit : 2A3
Devilez A. : 3A23
Dewan Raimi : 1P2
Dewan Raimi Bin : 1A41
Dezhband Erfan : 3P1
Dhakal Ashim : 3A11
Dhama Rakesh : 2A11
Di Falco Andrea : 2P2
Diaz F. J. : 3A25
Diaz Nunez Pablo : 4A22
Didier Felbacq : 2A28
Dieing Thomas : 2A21
Dietrich C. P. : 2A25
Dilhaire Stefan : 1A19
DiMaria Jeff : 3A26
Ding Boyang : 3A37
Ding Fei : 2P1
Ding Kun : 2A27
Ding Ying : 3A28
Dini Kevin : 3A5
Disseix Pierre : 2A25
Index
Djafari-Rouhani Bahram : 1P1, 2P2, 3A40
Djekounyom E. : 3P2
Dmitriev Victor : 1A12, 2P2
Dmitrieva M. D. : 1A24
Dogariu Aristide : 1A29, 3P2
Doiron Chloe : 2A22
Dombrovskaya Zhanna : 2P1
Dominec Filip : 1A23
Dong Daxing : 1P2
Dong Shi : 3A13
Donie Y. : 3A31
Donzella Valentina : 3A19
Doppler Jorg : 4A10
Dorofeenko Alexander Victorovich : 3P1
Doskolovich Leonid L. : 1A31, 2A26, 3P2, 3P2
Dostalek Jakub : 1P2, 1P2, 4A13
Dou Xiujie : 1A17
Drakeley Stacey : 3A37, 4A6
Drezet A. : 3A11
Drezet Aurelien : 1A25
Du Qingguo : 3A29
Du Shuo : 1P1
Duan Zhaoyun : 2A32
Dub Petr : 1P1
Dubinov Alexander : 1A28
Dubois Marc : 1A20, 2A6
Duempelmann Luc : 1P2
Duguet Etienne : 1A11
Dujardin Erik : 1P1, 1A6, 2A14, 3A4
Dumcenco Dumitru : 1A37
Dumelow Thomas : 2A24
Dumesnil Karine : 3P2
Duo Lamberto : 1A19, 1P2
Duran-Valdeiglesias Elena : 3P2
Dusanowski Lukasz : 2A3
Dutschke Anke : 3A39
Dutta Aveek : 1A2
Dvorak Petr : 1P1, 1P1, 3P1
Dwir Benjamin : 3P1
Dwivedi Neeraj : 4A15
Dyakov Sergey : 2A21
E. Little Brent : 4A5
Ea Kim Buntha : 1A19
Ebbesen Thomas : 1A25
Ebendorff-Heidepriem Heike : 3P2
Economou E. N. : 3A12
Edagawa Keiichi : 3A10
Edel Joshua : 4A20
Ederra I. : 3P2
Edes Zoltan : 1P1
Ee Ho-Seok : 3P1
Efimov Anatoly : 2A4
Eftekhar Ali A. : 4A16
Ehrhardt Kevin : 2A24
Eisenstein G. : 3A15
Eisfeld Alexander : 3A21
El Abouti Ossama : 1P1
El Amili A. : 3A21
233
META’16 Malaga Program
Index
El Badawe Mohamed : 4A24
El Badawe Mohamed K. : 3P1
El Boudouti El Houssaine : 1P1
El Gouti Thami : 3A41
El Shamy Raghi : 1P1
El-Azab Jala : 1P2
El-Ganainy Ramy : 3A21, 3A36, 4A7
El-Henawy Sally I. : 1A26
El-Hennawy Hadia Said : 1A26
El-Khozondar Hala Jarallah : 2P1, 2P2
El-Khozondar Rifa Jarallah : 2P1
Elahi P. : 1A29
Elayouch A. : 2A27
Eldridge P. S. : 2A3
Elissalde Catherine : 1A23
Ellenbogen Tal : 2A31
Ellinas Demosthenes : 2A23
Ellis A. Robert : 2A11
Ellis C. : 4A18
Ellis Chase T. : 2A24
Ellis D. J. P. : 3A15
Elsawy Mahmoud Mohamed Reda : 3A18
Elsayed Mohamed Yousef : 1P2
Elsharabasy Ahmed : 1P2
Engel Michael : 3A10
Engheta Nader : 1A18, 2A1
Enoch Stefan : 2A12, 2A27, 4A8
Enrichi F. : 4A18
Ertsgaard Christopher T. : 4A4
Espinosa-Soria Alba : 4A22
Estakhri Nasim Mohammadi : 1P2
Esteban Ruben : 2A8, 2A14
Etezadi Dordaneh : 4A13
Everitt Henry. O. : 1A35
Ezanuddin A. A. M. : 3P1, 3P1
Faccio Daniele : 2P2, 2P2, 2A25, 3A23, 3P2
Fafin Alexandre : 4A22
Fages Frederic : 1A40
Faggiani R. : 2A9
Faggiani Remi : 1A17, 3P1
Fainberg Boris : 3A11
Fainman Yeshaiahu : 3A21
Fan Donglei (Emma) : 3A34
Fan Jonathan A. : 3A13
Fan Shanhui : 4A14
Fan Weijun : 2P2
Fan Yuancheng : 1A26
Fang Hui : 1A25
Fang Ming : 3A37
Fang Nicholas X. : 2A2
Farhat Mohamed : 1A18
Farinola Gianluca Maria : 3A31
Farrer I. : 2A19, 3A15
Farsari M. : 3A12
Farsari Maria : 3A35
Faruque M. R. I. : 1A41, 3P1, 3A24
Faruque Mohammad Rashed Iqbal : 1P2, 1A41, 2P1,
2P1, 3P1, 3P1
Favraud Gael : 1P2
Fazio Barbara : 2A17, 2A17
Fedeli Jean-Marc : 2A29, 3P2, 3A32
Fedorov Anatoly : 1A30
Fedotov Vassili : 2A4
Fedyanin Dmitry Yu. : 2A20, 3A11
Fegadolli William S. : 3A36
Fehrembach Anne-Laure : 1P1
Fei Guangtao : 4A24
Feng Di : 1A25
Feng Hua Yu : 1A22
Feng Liang : 3A14, 3A36, 4A10
Feng Yijun : 3A14
Feng Yuncai : 1P2
Fenollosa Roberto : 1A35
Fernandes Elidiane Mirella Farias : 1P2
Fernandez Lucia : 1A7
Fernandez Oscar : 2P1, 3P1
Fernandez Pedro David Garcia : 3A10
Fernandez-Corbaton Ivan : 2P2, 3A7
Fernandez-Lopez Cristina : 3A34
Ferrand Guillaume : 4A8
Ferrari M. : 4A18
Ferreiro Teresa I. : 3A28
Ferrera Marcello : 1A2, 2P2, 2P2, 3A23, 3P2
Ferry Vivian : 2A22
Fiala Jan : 1A40
Fiborek Piotr : 2A27
Figliozzi Patrick : 3A27
Filatov E. V. : 1A42
Filter Robert : 3P2
Finazzi Marco : 1A19, 1P2
Fink Mathias : 2A12, 2A12
Fiore A. : 2P2
Fiore Andrea : 1P2, 3A15
Fischbach S. : 2A28
Fischer Bernd M. : 2A24
Fischer U. : 1P1, 1A13
Fisher Amnon : 1A3
Fishman A. I. : 1A24
Fitzpatrick Brian : 2A22
Fleischer Monika : 1A30, 2A7, 3P2
Fleming Simon C. : 2A24
Fleury Romain : 3A21
Floether F. : 3A15
Florescu Marian : 1P1, 1P1, 3A10
Florjanczyk M. : 3A32
Flueckiger Jonas : 3A19
Flynn R. : 4A18
Focsan Monica : 1P2, 2P2
Fogler Michael M. : 2A24
Fojta Miroslav : 1P1
Forcellini Nicolo : 1A23
Forouzmand Ali : 4A2
Forstner Jens : 1P1
Fossati Stefan : 1P2
Foteinopoulou S. : 3A12
Frach P. : 2P1
234
META’16 Malaga Program
Index
Francs Gerard : 2A14
Gardes Frederic : 3A8, 3A8
Frandsen Lars Hagedorn : 3P2
Gardes Frederic Y. : 3A19
Frank B. : 3A39
Gardner Julian : 1A41
Franke-Arnold Sonja : 3A7
Gargoubi Hamis : 2A25
Fransson Jonas : 3A6
Garin Moises : 1A35
Fratalocchi Andrea : 1P2, 1P2, 3A23, 3A26
Garwe F. : 4A13
Freeman Ernest : 3A2
Gaskell Jeff : 2P1
Freisem Lars : 4A20
Gaspar-Armenta Jorge Alberto : 1P1
Freudenberger Kathrin : 3P2
Gasparic Marija : 2A20
Fritzsche W. : 4A13
Gastelum-Acuna Sandra Luz : 1P1
Froufe-Perez Luis : 1A9
Gates James C. : 3A28
Froufe-Perez Luis S. : 1A15, 3A10
Gather M. C. : 2A25
Fruhnert Martin : 3A7
Gatte Mohammed Taih : 2P2
Fu Caixing : 2A6
Gauglitz Gunter : 3P2
Fu Hui-Chun : 1P2
Gawith Corin B. E. : 3A28
Fu Po-Han : 2P2
Gayral Bruno : 2P2
Fu Quanhong : 1A26
Ge Li : 4A10, 4A21
Fu Xiaojian : 4A1
Ge Xiaochen : 4A14
Fu Y. H. : 1A35
Gebler J. : 1A42
Fuentecilla-Carcamo Ivan : 2P2
Gebski M. : 3A32
Fulmes Julia : 1A30
Genack A. Z. : 1A21
Gacoin T. : 3A11
Genet Cyriaque : 1A25
Gadegaard Nikolaj : 2A22, 3A7, 3A14
Genevet Patrice : 3A26
Gadermaier Christoph : 1A37
Gentselev Alexandr N. : 1A40
Gajibo Mohammed M. : 1P2
Georget Elodie : 4A8
Gajic Rados : 1A2
Georgiou G. : 2A8
Gal L. : 3A39
Gerard Davy : 1A7, 2A14
Galinski Henning : 3A26
Gerard Jean-Michel : 2A9, 4A5
Galisteo-Lopez Juan F. : 1A35
Gerardot B. D. : 4A5
Gallas Bruno : 3P1, 3P2
Gerlach G. : 2P1
Galli Matteo : 2A17
Ghabbach Ayman : 1P1
Gallinet Benjamin : 1P2, 2A16
Ghirardini Lavinia : 1A19
Galopin E. : 3A5, 3A5
Ghulinyan Mher : 2A16
Gan Lin : 3A36
Giacobino Elisabeth : 1P2
Gandini Marina : 1A37
Giacomini Eric : 4A8
Ganichev Sergey : 3A3
Giannini Cinzia : 1A37
Gao T. : 2A3
Giannini Vincenzo : 2A8
Gao Yao : 3P2
Gibson Christopher : 2A23
Gao Yuanda : 1A23
Giebink Noel C. : 1A8
Gao Yunxiang : 3A2
Giessen H. : 3A39
Garcia de Abajo Francisco J : 1A6
Giessen Harald : 1A39
Garcia de Abajo Javier : 1P1, 1A28, 2A5, 2A7, 2P2, Giesz V. : 2A13
3P2, 3P2, 4A22
Gigan S. : 1A29
Garcia de Abajo Javier F. : 2P2, 4A9
Gigan Sylvain : 1A9, 1A21, 1A25, 1A29
Garcia Fernando : 1A22
Gil J. A. Sanchez : 3P2
Garcia Roberto F. : 4A6
Giles Alexander J. : 2A24
Garcia-Camara B. : 1P2, 3P2
Gillibert Raymond : 1P1
Garcia-Camara Braulio : 1A15, 2P1, 2P2
Giloan Mircea : 2P1
Garcia-Collado Angel J. : 3P1
Giman Fatin Nabilah : 3P1
Garcia-Cuevas Carrillo Santiago : 2P2
Ginis Vincent : 3A12, 3A27
Garcia-de-Abajo F. Javier : 4A13
Gippius N. A. : 1A42
Garcia-Etxarri Aitzol : 1A15
Girard Christian : 1P1, 1A6, 2A14, 3A4
Garcia-Llamas Raul : 1P1, 2P2
Girschik Adrian : 4A10
Garcia-Martin Antonio : 1A9, 1A15
Gisbert-Quilis P. : 1A30
Garcia-Parajo Maria F. : 3P2
Gkantzounis Georgios : 1P1
Garcia-Ripoll Juanjo : 2A13
Gladilin V. N. : 2A3
Garcia-Valenzuela Augusto : 4A9, 4A9, 4A19
Gladysiewicz Marta : 1P2
Garcia-Vidal F. J. : 1A28, 1A33
Glavin B. A. : 3A11
235
META’16 Malaga Program
Glavin Boris : 2A7
Glembocki O. : 4A18
Glembocki Orest J. : 2A24
Glesk Ivan : 3A8
Gloess D. : 2P1
Glorieux Quentin : 1P2
Glotzer Sharon C. : 3A10
Glybovski Stanislav : 4A17
Glybovski Stanislav B. : 4A17
Goeddel Mirko : 1A40
Goetschy Arthur : 1A21
Goette Joerg Bernhard : 2A23
Gogol Philippe : 1P1
Goldflam Michael : 4A2
Goldman Nathan : 1A16
Gollmer Dominik : 1A30
Golovastikov Nikita V. : 1A31, 2A26
Golovinski Pavel A. : 1A13
Gomaa Lotfi : 1P2
Gomaa Lotfi R. : 1P2
Gomard G. : 3A31
Gomez Alvaro : 2P1, 3P1
Gomez C. : 2A13
Gomez Daniel : 2A20
Gomez Ernesto Reyes : 2P1, 3A24
Gomez Rivas Jaime : 2A8, 3P1, 3P2
Gomez-Diaz Juan Sebastian : 3A9
Gomez-Grana Sergio : 1A11
Gonella F. : 4A18
Gong Yubin : 2A32
Gonzalez Ana Lilia : 4A9
Gonzalez Francisco : 1A35, 2A18
Gonzalez Izquierdo Jesus : 4A22
Gonzalez Miguel Angel : 3P2
Gonzalez Rubio Guillermo : 4A22
Gonzalez-Alcalde Alma Karen : 4A19
Gonzalo Ramon : 3P2
Gopal Achanta V. : 2A7
Gopalakrishnan Anisha : 4A1
Gorodetski Yuri : 1A25
Gosztola David J. : 2A7, 3A2
Goto Taichi : 2P1
Gotte J. B. : 3A7
Gotzinger Stephan : 3A39
Govan Joseph E. : 1A30
Govind Kiran : 1A29
Govorov Alexander : 2A13
Govorov Alexander O. : 1A6, 2A22, 3P2
Gozhyk Iryna : 1A25
Gradoni Gabriele : 1A20
Grajower Meir : 3A8
Gralak Boris : 1P1
Grancini Giulia : 1A37
Grand Johan : 3P1
Grande Ana : 2P1
Grange T. : 2A13
Gratus Jonathan : 2A32
Grbic Anthony : 2A8
Index
Gregersen Niels : 2A9, 3P1, 3A15, 3P2, 3A28, 4A5
Gresillon Samuel : 1A9, 1A25
Griffiths J. : 3A15
Grigelionis Ignas : 3P1
Grigoleto Hayashi Juliano : 2P1
Grigorenko Alexander : 1A11
Griol Amadeu : 4A22
Grosjean T. : 1P1, 1A13
Grosse Nicolai B. : 1P1, 1A27
Grossmann Swen : 1A19
Grundler Dirk : 1A10
Grzelczak Marek : 2A14
Gschrey M. : 2A28
Gu Bing : 3A29
Gu Changzhi : 1P1, 3P2
Gu Changzhi Z. : 2A16
Gu Min : 1A42
Gu Q. : 3A21
Gu Shulin : 1P1
Gubbins Mark : 4A6
Gucciardi Pietro Giuseppe : 2A17, 2A17
Guenneau S. : 2A27
Guenneau Sebastien : 1A18, 2A12, 2A27
Guerrero Julio : 1A36, 4A10
Guerrero Martinez Andres : 4A22
Guerrero-Martinez Andres : 1A11
Guerrini Luca : 1A30
Guida Geraldine : 3P1
Guillet Thierry : 2P2, 2A25, 2A25
Guinea Francisco : 1A28
Guizal Brahim : 2P2, 2A25
Guler Urcan : 1A2, 4A6, 4A11
Gun’ko Yuri : 2A21
Gun’ko Yurii K. : 1A30
Guney Durdu : 4A21
Gunther Sebastian : 1P2
Guo Chen : 3A4
Guo Guang-Can : 3A25
Guo Guang-Yu : 1P1, 1P2
Guo Guo-Ping : 3A25
Guo J. H. : 3A34
Guo Z. W. : 1A17
Gurevich E. : 3A5
Gurunatha Kargal : 3A4
Gusev Vitali : 1A22
Gusev Vitalyi : 2P1, 3P2
Gutierrez Yael : 1A35
Gutsche Philipp : 3P2
Gutt Robert : 2P1
Gwo Shangjr : 1A4
Haberko J. : 3A31
Haberko Jakub : 3A10
Hachiya Yuta : 2A21
Hadad Yakir : 3A9
Hadfield Robert : 3A28
Hadji Emmanuel : 4A23
Hafezi Mohammad : 4A3
Haffouz S. : 1A39
236
META’16 Malaga Program
Index
Hageneder Simone : 1P2
Heminej J. : 4A18
Haglund E. : 3A32
Hendren William : 3A37, 4A6
Hahe Rereao : 2A25, 2A25
Hendry Euan : 2A23
Hahn Choloong : 2P1, 3A24
Henstridge Meredith A. : 2A8
Hajian H. : 2A32
Hermans Sophie : 3P1
Hajian Hodjat : 2A5
Hernandez-Minguez Alberto : 1A22
Halir R. : 4A16
Herrero Ramon : 1A8
Halir Robert : 2A29, 3A8, 3A8, 3A19, 3A19, 3P2, Herrero-Bermello Alaine : 3A19
3P2, 3A32, 4A7
Herrmann Kathrin : 1P1
Hall Trevor James : 3A8
Hess O. : 1A28
Halpin A. : 2A8
Hess Ortwin : 1A2, 3P1, 3P2
Hameed Mohamed Farhat O. : 1P2, 1P2
Hey Rudolf : 1A22
Hamel Philippe : 3A36
Hidalgo Francisco : 1A30
Hamid Mohamad Rijal : 1P2, 1P2, 3P1
Hielscher Johannes : 3A31
Hamm Joachim : 3P2
Hillebrands Burkard : 3P1
Hamm Joachim Michael : 1A28
Hillenbrand Rainer : 1A23
Han Jae-Hyung : 2P1
Hillion Arnaud : 3P2
Han Xiang : 1A29
Hirst L. : 4A18
Hannour Abdelkrim : 2P2
Hissi N. : 3P1
HanWong Polis Wing : 3P1
Hissi Nour El Houda : 2P1
Harari Gal : 3A21
Hizhnyakov Vladimir : 1P1
Haro-Poniatowski Emmanuel : 4A9
Hlubina Richard : 1A20
Harter A. K. : 1A8
Hodaei H. : 4A21
Harth Anne : 3A4
Hodaei Hossein : 3A21
Hartschuh Achim : 1P2
Hoefling Sven : 2A3, 2A25, 4A5
Hasan Heba Tallah A. : 3A38
Hoelscher Hendrik : 3A31
Hasan Mehedi : 3A5
Hoffmann Bjorn : 3A39
Hassan A. U. : 4A21
Hofling S. : 1A42
Hassan Absar : 3A21
Hofmann Stephan : 3A25
Hatakenaka Noriyuki : 2A26
Hogan Benjamin Thomas : 2A21
Hatzopoulos Z. : 2A3, 2A25
Hohenau Andreas : 2A20
Haug Tobias : 2A30
Hohenester Ulrich : 2A20
Haverkort J. E. M. : 3P2
Hollander Elad : 2A23
Hawal Suyog R. : 2P1
Holmes Barry M. : 3A28
Hayashi Shinji : 1P1, 1A13, 2A26, 4A1
Holmes Christopher : 3A28
Hayenga W. : 4A21
Homola Jiri : 4A13
He Jie : 4A13
Hone James : 1A23
He Jingwen : 2A15
Hong Liying : 3A9
He Jr Hau : 1P2
Hong Yan : 2A18
He Qiong : 1A34, 4A12
Hoogduin J. M. : 4A17
He Wei : 2A2
Hopkins Ben : 2A26
He Wen-Yu : 1A16
Horneber Anke : 2A7
He Yu-Ming : 4A5
Hornecker G. : 2A13
Headland Daniel : 2A4
Horrer Andreas : 2A7, 3P2
Healy Noel : 4A14
Horsley Simon : 1A32
Hecht Bert : 1A19, 1P2
Hossain Md Ikbal : 1A41, 3P1
Hecker D. : 2P1
Hossain Mohammad Jakir : 2P1
Heckmann Jan : 1P1, 1A27
Hosseini Peiman : 2P2
Hegazy Salem F. : 1P2
Howell S. W. : 3A13
Hegmann Elda : 3A2
Hrton Martin : 1P1, 1P1, 3P1
Hegmann T. : 3A2
Hsiao C. N. : 2P1
Hegmann Torsten : 3A2
Hsiao Jen-Hung : 3A20
Heimbach F. : 1A10
Hsieh Wen Ting : 4A2
Heindel T. : 2A28
Hsu Chia Wei : 1A21
Heinrich M. : 4A21
Htoon Han : 2A30
Heiss W. D. : 2A16
Hu A. Xian : 1A25
Heister P. : 1A37
Hu Chen-Yang : 3P1
Heiz U. : 1A37
Hu Evelyn L. : 1A12
237
META’16 Malaga Program
Hu Hao : 3A16
Hu Xiao : 4A3
Hu Xiaonan : 3A9
Hu Xin : 1A27
Hu Yi : 3A18
Huang C. -B : 2P1
Huang C.-B. : 3A26
Huang Ding-Wei : 2P2
Huang Fumin : 3P2, 3A37, 4A6
Huang Qianqian : 1P1, 1P1
Huang Yao-Wei : 2A4, 4A2
Huang Yi : 3A13, 4A20
Huang Yunqing : 1P2, 2P1
Huang Zhixiang : 3A37
Huant S. : 3A11
Hubarevich Aliaksandr : 2P2
Huber Andreas. J. : 1A23
Huber Rupert : 3P1
Hueso Luis E. : 1A23
Hughes Stephen : 2A13, 3A27, 4A5
Hugonin Jean-Paul : 2A11
Hui Huang : 2P2
Huidobro Paloma Arroyo : 2A8
Hurshkainen A. A. : 4A17
Hurshkainen Anna : 4A17
Hussain Sajid : 4A15
Hutchison James Andel : 1A25
Huynen Isabelle : 3P1
Hwang Dae-Woong : 1P1
Hwang Min-Soo : 3P1
I. Bozhevolnyi Sergey : 2P1, 4A1
Ianoul Anatoli : 1A25
Iati Maria Antonia : 2A17, 2A17
Ibragimova Elvira Memetovna : 2P1
Iff Oliver : 4A5
Ihlefeld J. F. : 3A33
Ikeda Naoki : 1P1
Iles-Smith Jake : 3A15, 3A28
Imamoglu Atac : 4A5
Imura Kohei : 1A6
Inoue Mitsuteru : 2P1
Inoue Takuya : 1A12
Inouye Yasushi : 1A13
Inui Takahiro : 1P1
Ionescu Adrian Mihai : 2A5
Ionescu Rodica Elena : 4A4
Iorsh I. V. : 3A41
Iorsh Ivan : 3A5
Iorsh Ivan V. : 2A24
Iriarte Juan Carlos : 3P2
Irrera Alessia : 2A17, 2A17
Irudayaraj Joseph : 2A11
Isakari Hiroshi : 1P2
Ishiguro Taichi : 1P1
Ishihara Teruya : 2A21, 3P2
Ishii Satoshi : 4A15
Ishitobi Hidekazu : 1A13
Isic Goran : 1A2
Index
Islam M. T. : 1A41, 3P1, 3P1, 3A24
Islam Md. Moinul : 2P1, 3P1
Islam Mohammad Tariqul : 1A26, 1P2, 2P1, 2P1,
3P1, 3P1, 3P1
Islam Sikder S. : 3A24
Islam Sikder Sunbeam : 1P2
Ismail Abdul Hafiizh : 2P1
Ismail Muhammad Faizal : 3P1
Ismail Yehea : 1P2
Isogai Ryosuke : 2P1
Ivanov Andrey : 2P2
Iwata K. : 3P2
Iwata Kengo : 2A21
Iyer P. P. : 4A2
Izrailev Felix : 1A36
Jack C. : 3P2, 3P2
Jack Calum : 2A22, 3A7, 3A14, 3P2
Jacqmin T. : 3A5
Jacquet Paul : 1A25
Jaeger Nicolas A. F. : 3A19
Jagadish Chennupati : 3A29
Jager Jean-Baptiste : 4A23
Jager Regina : 1A30
Jager Sebastian : 1A30
Jahr N. : 4A13
Jakoby Rolf : 3A38
Jalil Mohd Ezwan : 1P2
Jalil Mohd Ezwan Bin : 1A41
Jamadi Omar : 2A25
James Timothy : 2A20
Jamlos M. F. : 2P2, 2P2, 3P1, 3P1
Jamlos Mohd Aminudin Bin : 2P1
Jamlos Mohd Faizal : 2P1, 2P1, 2P2, 3P1, 3P1, 3P1,
3P1, 3P1, 3P1, 3P1
Jana Debrina : 4A13
Jang M. S. : 3A13
Janipour Mohsen : 3A39
Janner Davide : 4A13
Jantzen Alexander : 3A28
Janusonis J. : 1A22
Janusonis Julius : 1A22
Janz S. : 4A16
Janz Siegfried : 2A29, 3A19, 3A32, 4A7
Janz Siegried : 3A19
Jarlov Clement : 3P1
Jarrett Jeremy W. : 1A37
Jatschka J. : 4A13
Jauho Antti-Pekka : 2A5
Jaziri Sihem : 2A25
Jeannin M. : 3A11
Jede R. : 3A11
Jenkins P. : 4A18
Jensen Flemming : 2A24
Jeon Heonsu : 1A23
Jeon Jiyeon : 3P2
Jeong Kwang-Yong : 3P1
Jessop David : 3A25
Ji Xiaoli : 3A29
238
META’16 Malaga Program
Jia Hongwei : 1A17
Jia Peipei : 3P2
Jiang Xiaoshun : 1A36
Jiang Bo : 2A22
Jiang Haitao : 1A17, 3P2
Jiang Li Jun : 3A37
Jiang Liang : 1A36
Jiang P. : 2A13
Jiang Ruibin : 1A4
Jiang Tian : 3A14
Jiang Zhihao : 1P2
Jimenez de Castro M. : 4A9
Jimenez-Solano Alberto : 1A35
Jin Biaobing : 3P2
Jin Xin : 2A22
Jin Yabin : 2P2, 3A40
Joglekar Yogesh N. : 1A8
Jonas Ulrich : 1P2
Jones Philip : 1A29
Joshi Chetan : 1A32
Jouvaud Camille : 4A8
Junior Euclydes Marega : 1P1, 1A25
Juodkazis Saulius : 1P1, 1A25
Jupille Jacques : 1A25
Jusoh Muzammil : 1A27, 3P1
Kabashin Andrei V. : 2A24
Kaczmarczyk A. : 4A5
Kadlec Christelle : 1A23
Kadlec E. A. : 3A13
Kadodwala M. : 3P2, 3P2
Kadodwala Malcolm : 2A22, 3A7, 3A14, 3P2
Kadoya Yutaka : 2A26
Kafesaki M. : 3A12
Kaganskiy A. : 2A28
Kahl M. : 3A11
Kaijima Akira : 2A20
Kaina Nadege : 2A12
Kaipurath Rishad : 2P2, 3A23, 3P2
Kajikawa Kotaro : 1P1
Kajorndejnukul Veerachart : 1A29
Kale Sangeeta Narendra : 3A33
Kalish Andrey : 1A12, 3P2
Kall M. : 2A30, 3A25
Kallos Efthymios : 3A38
Kallos Themos : 4A11
Kalousek Radek : 1P1, 3P1
Kaltenecker Korbinian Julius : 2A24
Kalusniak Sascha : 3A24
Kamardin Kamilia : 1A41
Kamarudin M. R. : 3P1
Kamarudin Muhammad Ramlee : 1A27, 2P1
Kamenetskii Eugene : 2A23, 3A16
Kameyama Tatsuya : 2A22
Kamp M. : 1A42
Kamp Martin : 2A3
Kampfrath T. : 3P2
Kancleris Zilvinas : 3P1
Kang Gumin : 1A11
Index
Kang Juhyung : 3P1, 3A26
Kang S. : 4A13
Kang Soyoung : 3A20
Kanjanasit K. : 3A16
Kantartzis Nikolaos V. : 1P2, 1A41
Kante Boubacar : 1P1, 4A3
Kapitanova Polina : 1A41, 3P2
Kapon Elyahou : 3P1
Karabchevsky Alina : 4A23
Karakaya Halis : 3P1
Karamanos Theodosios D. : 1P2, 1A41
Karami Hamid Reza : 3P1
Karami Hamidreza : 2P2
Karczewski G. : 3A11
Karimullah A. S. : 3P2
Karimullah Affar : 3P2
Karimullah Affar S. : 2A22, 3A7, 3A14
Karimullah Affar Shahid : 3P2
Kartouzian Aras : 1A37
Karube Hisashi : 1P1
Kasahara Kenichi : 1P1
Kasera Setu : 3P2
Kasture Sachin : 2A7
Kats Mikhail : 4A2, 4A12
Kats Mikhail A. : 4A2
Katz Ori : 1A9
Katzen Joel M. : 3P2
Kauranen Martti : 1A37
Kaushal Ajay : 1A25
Kavokin A. V. : 3A5
Kavokin Alexey : 2A3, 4A23
Kavokin Alexey V. : 1P2
Kaya Sabri : 1P1, 2A21, 3P1
Kazansky Andrey K. : 2A8
Kazantsev Yuri : 1P2
Kazantsev Yury : 3P1
Kazarian S. G. : 1A24
Ke Manzhu : 3A40
Ke Shaolin : 3P2
Kee Chul-Sik : 2P2
Keeler Gordon : 3A6
Keil K. : 3A23
Kejik Lukas : 1P1, 3P1
Kelly Christopher : 3P2
Kelly O. d’Allivy : 1A10
Kenanakis G. : 3A12
Kepesidis Kosmas : 4A10
Kerbusch Jochen : 4A2
Keren-Zur Shay : 2A31
Kern Dieter : 1A30, 3P2
Keshmarzi Elham Karami : 1A36, 2P1
Kewes Gunter : 1P1, 2A28
Khajavikhan Mercedeh : 3A21, 4A21
Khalal Ali : 3A41
Khalefa Rana : 2P2
Khallouq Keltoum : 2P2
Khanikaev Alexander : 1A3
Kharintsev Sergey : 1A24
239
META’16 Malaga Program
Kharitonov A. V. : 1A24
Kheifets Simon : 3A27
Khelif A. : 2A27
Kherani N. P. : 1A13
Khlebtsov B. N. : 1A14
Khlebtsov Nikolai : 1A14
Khokhar Ali Z. : 3A8, 3A8
Khokhlov Nikolai Evgen’evich : 1P1, 1A12
Khoo Eng Huat : 3A9
Khorashad Larousse : 1A6
Khorashad Larousse Khosravi : 2A22
Khramova Anastasiya : 1P1
Khramtsov Igor A. : 3A11
Khurgin J. B. : 3A4
Kiang Yean-Woei : 3A20
Kianinejad Amin : 3P2
Kibis Oleg : 3A5
Kibria Salehin : 3P1
Kilbane Deirdre : 3A39
Kildemo Morten : 2A24
Kildishev Alexander : 1A40, 2A11
Kildishev Alexander V. : 4A6
Kim Da-Som : 1P1, 1P1, 2P2
Kim H. : 4A18
Kim Hyeon-Don : 3P1
Kim Hyochul : 3A28
Kim Hyowook : 3A20
Kim Inbo : 2P1
Kim Inki : 3A34
Kim J. K. : 3A33
Kim J. Young : 3A20
Kim Ja-Yeong : 2P2
Kim Jayeong : 2P2
Kim Jeong Hyeon : 4A23
Kim Ji Su : 1A40
Kim Jinhyung : 3P1
Kim Jongbum : 2P2, 2P2, 3A9, 3A23, 3P2
Kim Jun Oh : 3P2
Kim K. : 3A34
Kim Kap-Joong : 2P2
Kim Kyoungsik : 1A11, 1P2
Kim L. : 3A13
Kim Minkyung : 3A34
Kim Oleksiy : 3P2
Kim Reehyang : 3A20
Kim S. : 3A13
Kim Seong-Han : 2P2
Kim Sun-Kyung : 1P1, 1P1, 2P2
Kim Teun-Teun : 3P1
Kim Yoon Young : 2A12
Kim Young-Seok : 2P2
Kindness Stephen : 3A25
King Christopher G. : 1A32
Kinsey Nathaniel : 1A2, 2P2, 3A23, 3P2
Kinsey Nathaniel G. : 3A9
Kinsey Nathniel : 2P2
Kinsler Paul : 2A32
Kirah Khaled : 3A11
Index
Kirkwood Robert : 3A28
Kirtaev Roman V. : 2A20
Kis Andras : 1A37
Kita Shota : 1A42, 3A24
Kitano Masao : 2A26
Kivshar Yu. S. : 3A41
Kivshar Yuri : 2A26, 3P2
Kjaer Kristensen Peter : 4A1
Klaers Jan : 4A5
Klein Thorsten : 2A3
Klem John : 2A11
Klembt Sebastian : 2A3
Klemm Philippe : 2A30
Klemme Daniel J. : 4A4
Klimov V. V. : 1P1
Klitis Charalambos : 3A28, 4A14
Klomp Dennis W. : 4A17
Klos Gunnar : 1P2
Knappenberger Kenneth L. : 1A37
Knite Maris : 2P1
Knoll Wolfgang : 1P2, 1P2
Knoppe Stefan : 1A37
Knorr A. : 2A28
Kociak Mathieu : 1P1
Kodigala Ashok : 1P1
Koenderink Femius : 2A9
Kogler Peter : 1P2
Kogos Leonard : 3A26
Koirala Milan : 1A21
Kolibal Miroslav : 1P1
Komatsu Ryosuke : 1P1, 1A25
Kong Xiang-Tian : 3P2
Kong Yongfa : 1A31
Konstantinidis G. : 3A12
Koo Sukmo : 3A34
Kopaczek J. : 2A21
Koppenhofer Martin : 2A9
Koppens Frank H. L. : 1A23
Korkmaz Semih : 1P1
Kornyshev Alexei : 4A20
Korobko D. : 1P1
Koschny Thomas : 3A37
Kosmas Panagiotis : 3A38
Kosykh Tatiana : 1P1
Kotlyar Maria V. : 3P2
Kotlyar Victor : 3P2
Kotov Oleg : 2P2
Kottos Tsampikos : 4A21
Kozhaev Mikhail : 3P2
Kozlov Maksim : 1A20
Krachmalnicoff Valentina : 3P2
Kraft Matthias : 2A8
Kraftmakher Galina : 1P2, 3P1
Krahne Roman : 4A1
Krapek Vlastimil : 1P1, 3P1
Krasnok A. E. : 1A33, 3A18
Kraus Jurgen : 1P2
Kravets Vasyl : 1A11
240
META’16 Malaga Program
Kreilkamp Lars Erik : 3A11
Kremer Mark : 3A36
Krenn Joachim R. : 2A20, 3A8
Kretinin Andrey V. : 2A24
Krieg Katrin : 3P2
Krishnamurthy Vivek : 4A6
Kristensen Philip T. : 3A15
Kristinsson Kristinn : 3A5
Kristou Nebil : 1P2, 1A41
Krizhanovskii D. N. : 2A19
Krizhanovskii Dmitry : 2A19
Krizova Aneta : 3P1
Kronenberg N. M. : 2A25
Krupin Oleksiy : 4A16
Ku C.-T. : 3A26
Ku Zahyun : 3P2
Kucernak Anthony : 4A20
Kudela Pawel : 2A27
Kudrawiec Robert : 1P2, 2A21
Kuehn Michael : 1A40
Kues Michael : 4A5
Kuhl Ulrich : 4A10
Kuhlicke Alexander : 1P1, 2A28
Kuhlmann Andreas : 4A5
Kuhlmey B. T. : 3A25
Kuhlmey Boris T. : 2A24
Kuipers Kobus : 3P1
Kuipers Kobus L : 3A27
Kuipers L. : 4A5
Kulakovskii V. D. : 1A42
Kulkova Irina : 3P1
Kumar Mukesh : 4A15
Kumar S. : 4A5
Kumar Shailabh : 4A4
Kumar Upkar : 1P1, 1A6, 2A14, 3A4
Kumazawa Eisaku : 2A22
Kundu Shreya : 4A15
Kurochkin Ilya : 2P2
Kurter Cihan : 3A27
Kusko Cristian : 2P2
Kusko Mihai : 2P2
Kuwabata Susumu : 2A22
Kuzel Petr : 1A23
Kuzmenko Alexey B. : 2A5
Kuzmin Dmitry : 2P2, 3P2
Kuznetsov A. : 1A15
Kuznetsov A. I. : 1A35
Kuznetsov Sergei A. : 1A40
Kuznetsov Sergei Alexandrovich : 1P2
Kvapil Michal : 1P1
Kwiecien Pavel : 1A40
Kwong N. H. : 3A5
L’Huillier Anne : 3A4
La Gala Giada : 4A20
Laamari M. : 3P1
Labouret T. : 2A2
Lachaine Remi : 3A22
Lafont O. : 3A5
Index
Lafosse Xavier : 2A25, 2A25
Lagarkov Andrey : 2P2
Lagendijk Ad : 1A21
Lago H. : 2P2, 2P2, 3P1, 3P1
Lago Herwansyah : 3P1
Lagoudakis P. G. : 2A25
Lagoudakis Pavlos : 3A5
Lagutchev Alexei : 2A11
Lai Yun : 2P1, 2A6, 3P1, 3A9
Lakhtakia Akhlesh : 3A7
Lalanne P. : 2A9
Lalanne Philippe : 1A17, 1A18, 1A19, 1A33, 3P1
Lalisse Adrien : 4A15
Lamontagne Boris : 2A29, 3A32
Lamy de la Chapelle Marc : 1P1
Lan Sheng : 3A18
Lan Yung-Chiang : 1P1
Lanco L. : 2A13
Landes Christy : 1A4
Langbein Wolfgang : 1A39
Lange Christoph : 3P1
Langer Fabian : 2A3
Langston William : 3A6
Lanteri S. : 1A43
Lanzani Guglielmo : 1A37, 3A31
Lapointe J. : 1A39, 4A16
Lapointe Jean : 2A29, 3A19, 3A19, 3A32, 4A7
Lapthorn Adrian J. : 2A22
Larkin I. A. : 3A23
Larrat Benoit : 4A8
Larre P.- E. : 2A25
Larsson A. : 3A32
Latioui Hafssaa : 4A19
Laurent Guillaume : 3A11
Laussy F. P. : 3A5
Laussy Fabrice P. : 3A5, 3P2
Lavrinenko A. V. : 3A41
Lavrinenko Andrei V. : 1A20, 2A24
Law Stephanie : 4A7
Lawrie Benjamin : 2P1, 3A4
Lazar Adriana : 1P2
Lazarides N. : 2P1
Lazzari Remi : 1A25
Le Boulbar Emmanuel Damien : 2P1
Le Roux Xavier : 1A12
Le Thi Ngoc Loan : 2P1
Le Thomas Nicolas : 3A11
Leahu Grigore : 2P1
Lechuga Laura M. : 1A14
Lee Dasol : 3A34
Lee David : 4A24
Lee Doh Chang : 4A7
Lee Howard (Ho Wai) : 3A9
Lee Hyong-In : 3P2
Lee Hyuk : 2A12
Lee J. K. : 1P1
Lee J. P. : 3A15
Lee Jihye : 4A23
241
META’16 Malaga Program
Lee Jung-Hoon : 3A7
Lee Jung-Yong : 4A7
Lee Nayeun : 3A20
Lee Po Tsung : 1P2, 1A39
Lee Sang Jun : 3P2
Lee Yeng Seng : 3P1, 3P1
Lee Yeon Ui : 1A40
Lee Yih Hong : 1A4
Lefier Yannick : 1P1, 1A13
Lei Dang Yuan : 2A30
Lei Hua-Lin : 3A25
Lei Wei : 1P1, 1P1
Leidner Lothar : 3P2
Leijssen Rick : 1P2, 4A20
Leite Marina S. : 4A15
Leitenstorfer Alfred : 1A6
Lelek Jakub : 1A40
Lemaitre A. : 2A13, 3A5, 3A5
Lembessis Vasileios E. : 2A23
Lemoult F. : 2P2
Lemoult Fabrice : 2A12
Leng Jacques : 1A11
Leone Gabriella : 3A31
Leordean Cosmin : 2P2
Lepage Anne Claire : 1A32
Lepetit Thomas : 1P1
Lerosey G. : 2P2
Lerosey Geoffroy : 2A12
Leroux Mathieu : 2A25, 2A25
Leseur Olivier : 3A10
Lesselier Dominique : 1P2
Letizia Rosa : 2A32
Leuchs Gerd : 1A7, 3P2, 3P2
Leung P. T. : 3A5
Levenson Ariel : 3A36
Levy E. : 3A5
Levy Eli Eliyahu : 1A3
Levy Uriel : 3A8
Lewandowski P. : 3A5
Lewi T. : 4A2
Leykam Daniel : 1A3
Leymarie Joel : 2A25
Lezec H. J. : 1P1
Li Changyou : 1P2
Li Christopher Y. : 2A15
Li Dongsheng : 3P2
Li F. : 2A19
Li Feng : 2A25, 2A25
Li G. : 3A25
Li Guangqi : 3A11
Li Guixin : 1A34, 2A4, 3P1
Li Hai : 4A15
Li Huipeng : 1A25
Li J. : 3A35
Li J. J. : 2A16
Li Jensen : 1A16, 1A34, 3A9
Li Jiafang : 1A17, 3P1
Li Jiaqi : 1A35
Index
Li Jichun : 1P2, 2P1
Li Jin-Xiang : 3A18
Li Jing : 1P1
Li Junjie : 1P1, 3P2
Li King Fai : 1A34, 3P1
Li Lianhe : 3A9, 3A15
Li Ming : 3A25, 4A14
Li Qiang : 1A13, 1A17, 2A30
Li Qing-Bo : 1A42
Li Shimao : 4A14
Li Shuzhou : 1A4, 2A2
Li Tao : 2A20, 3P2
Li W. X. : 2A16
Li X. : 4A16
Li Xiaoqin : 1A4
Li Xiuling : 4A14
Li Xun : 4A16
Li Yang : 1A42, 3A24, 4A2
Li Yue : 1A18
Li Z. C. : 1P1
Li Zhaoyi : 2A15
Li Zhi-Yuan : 1A17, 3P1, 3A36
Liang Guozhen : 3A9
Liang Houkun : 3A9
Liang Yuan : 4A1
Liao Bolin : 3A13
Liao Chun Yen : 2A4, 4A2
Liao Yang : 1A5
Liao Yiming : 3A29
Liberal Inigo : 1A18
Libisch Florian : 4A10
Lidzey D. G. : 2A25
Liew Seng Fatt : 1A21
Liew T. C. H. : 2A3
Liew Timothy C. H. : 3A5
Ligmajer Filip : 1P1, 1P1, 1P1, 3P1
Lim Kim Peng : 4A6
Lim Pang Boey : 2P1
Limaj Odeta : 4A13
Lin C.-Y. : 3A26
Lin Chung-Ying : 2P1
Lin Feng : 1P1
Lin Hao-Tsun : 2A4
Lin Hung-I. : 4A2
Lin Hungyen : 3A25
Lin Mong-Yin : 1A40
Lin Ta-Chun : 1P2
Lin W.-H. : 3A13
Lin Y. H. : 2P1
Lin Zin : 4A2
Linden Stefan : 3A22
Lindfors K. : 2A13
Linfield Edmund : 3A15
Linfield Edmund H. : 3A9
Ling Xing Yi : 1A4
Link Stephan : 2A2
Lippitz M. : 2A13
Lippitz Markus : 2A7
242
META’16 Malaga Program
Lisyansky Alexander Abramovich : 3P1
Litchinitser Natalia : 3A22, 3A30
Litvin L. : 3A11
Liu Ai Qun : 2A4, 4A2
Liu Amy : 3A8, 3A22
Liu Bi-Heng : 3A25
Liu Changlong : 1A40
Liu Fu : 1A16
Liu Guoping : 1A13
Liu Haitao : 1A17
Liu Hsuan-Wei : 3A39
Liu Hui : 1A34, 3A25
Liu Jin : 3A28
Liu Jing : 2A11
Liu Jingfeng : 4A12
Liu Jonathan : 3A20
Liu Ke : 4A1
Liu Li : 4A21
Liu Linghai : 3A19
Liu Liu : 3A28
Liu Lulu : 3A27
Liu Mengkun : 4A2
Liu Na : 1A4
Liu Ning : 3A4
Liu Ruili : 4A14
Liu Sheng : 3A6
Liu Shichia : 3A32
Liu Weiwei : 3P2
Liu Xiao-Ping : 3A36, 4A21
Liu Xiaoyong : 3A14
Liu Xuejun : 2A22
Liu Yonghao : 4A14
Liu Youwen : 1P2
Liu Z. : 1P1, 2A16
Liu Zeming : 1A30
Liu Zhe : 3P2
Liu Zhengtong : 1A28, 3A9
Liu Zhengyou : 3A40
Liu Zhiguang : 1A17
Liu Zicheng : 1P2
Liyana Z. : 3P1, 3P1
Liz-Marzan Luis : 2A14
Liz-Marzan Luis M. : 1A6, 3A34, 3A35
Lo Faro Maria Jose : 2A17, 2A17
Lo Presti Marco : 3A31
Lobanov S. V. : 1A42
Locatelli Andrea : 1A19
Lodhal Peter : 1A9
Lombardi Anna : 1A2, 1A19, 1P2, 2A9, 3P2
Lomonosov A. M. : 1A22
Lomonosov Alexey : 1A22
Loncar Marco : 4A2
Loncar Marko : 1A42, 3A24
Loot Ardi : 1P1
Lopez Barbero Andres Pablo : 1P2
Lopez Carreno Juan Camilo : 3A5, 3P2
Lopez Cefe : 1A9, 1A35
Lopez-Cabeceira Ana Cristina : 2P1
Index
Lorek Eleonora : 3A4
Losquin Arthur : 1P1, 3A4
Lotito Valeria : 2A24
Lott J. A. : 3A32
Lou Qun : 3A29
Loudon Alexander : 1A30
Lougovski Pavel : 3A4
lozan olga : 1A19
Lozovik Yuri : 2P2
Lu Dawei : 1A11
Lu Hai : 3A29
Lu Ming : 2A15
Lu Minghui : 3A36, 4A21
Lu Peixiang : 3P2
Lu Wei : 1P2, 1A40
Lu Yan : 1P1
Lu Yanqing : 4A1
Lu Yonghua : 4A24
Lu Zeqin : 3A19
Lucyszyn S. : 1P2
Luijten Peter R. : 4A17
Luk M. H. : 3A5
Luk Ting : 2A11, 3A6
Luk’yanchuk B. : 1A35
Luk’yanchuk Boris : 1A15
Lukowiak A. : 4A18
Lum William : 3P2
Lumer Yakov : 3A36
Lundeberg Mark B. : 1A23
Lundt Nils : 4A5
Lunnemann Per : 1P2
Lunskens T. : 1A37
Luo Feng : 1A22
Luo Jie : 3P1, 3A9
Luo Si : 1A13
Luong Michel : 4A8
Lupton John M. : 2A30
Lupu Anatole : 1A20, 1A40
Luque-Gonzalez Jose Manuel : 3P2, 4A7
Luu-Dinh Angelique : 1P2
Lyasota Alexey : 3P1
Lynch Stephen G. : 3A28
Ma Dongling : 2A22
Ma Guancong : 2A6, 2A27
Ma Minglei : 3A19
Ma Renmin : 3A14
Ma Shaojie : 4A12
Ma Ye : 4A20
Ma Zhenqiang : 3A32
Maag Thomas : 3P1
Macedo Rair : 2A24
Maci Stefano : 1P2, 3P2
Mackay Tom : 3A7
Maczko Herbert : 1P2
Maes Bjorn : 1P1, 1P2, 1A36, 3P2
Mahdavi A. : 2P1
Mahjoubi Kourosh : 1P2, 1A41
Mahmud M. Z. : 3P1
243
META’16 Malaga Program
Mahmud Md. Zulfiker : 1A26
Mahro A. K. : 3A39
Mahrt Rainer F. : 2A25
Mai Lijian : 2A25
Maicu M. : 2P1
Maier Stefan : 4A6
Maier Stefan A. : 1A15, 2A8, 3A26
Mailybaev Alexei : 4A10
Main J. : 2A16
Maioli Paolo : 1A19
Maitland Calum : 2A25
Majid H. A. : 2P1, 2A32
Majid Huda A. : 1P2
Majumdar Arka : 4A1
Makarov D. : 3P2
Makarov Denys : 1A10, 1A10
Makarov Nykolay : 1A36
Makarov S. V. : 1A33, 3A18
Makinen A. : 4A18
Makris Konstantinos : 1A20, 3A36, 3A36, 4A10
Makris Konstantinos G. : 4A10
Maksimov A. A. : 1A42
Makwana Mehul : 2A27
Mal’tsev Valery : 1P2, 3P1
Malcuit Christopher : 3A2
Malek F. : 3P1, 3P1
Maling B. : 2A27
Maling Ben John : 3A29
Mallada Celia : 1A7
Malpuech G. : 1A16
Malpuech Guillaume : 2A25, 3A5
Malureanu Radu : 2A24
Mamedov A. M. : 2P2
Mamedov Amirullah : 2P1, 2P2
Man Weining : 1P1
Mancabelli Tobia : 1P2
Maniu Dana : 2P2
Manjappa Manukumara : 3A6
Manna Uttam : 3A7
Mantash Mohamad : 1P1
Mantilla-Perez Paola : 3A22
Manuylovich Egor S. : 1A13
Manzoni Cristian : 1A37
Mao Chenchen : 1A11
Marago Onofrio M. : 2A10
Marconi Mathias : 3A36
Mardegan M. : 4A18
Margousi David : 1P2
Marichy C. : 3A31
Marinero Ernesto : 4A11
Marinero Ernesto E. : 4A6
Marini Andrea : 2P2, 4A9
Marinica Dana-Codruta : 2A8
Marino Francesco : 2A25
Markos Peter : 1A20, 2A26
Marques Manuel I. : 1A29
Marquez-Islas Roberto : 4A9
Marquier Francois : 2A11
Index
Marris-Morini Delphine : 2A29
Marsell Erik : 3A4
Marston Philip : 2A23
Martella Daniele : 4A19
Marthaler Michael : 2A9
Martijn de Sterke C. : 3A25
Martin A. : 3A15
Martin Ferran : 3P1, 4A11
Martin Jerome : 1A7
Martin M. D. : 2A3
Martin Olivier J. F. : 2A7
Martin-Moreno Luis : 2A13
Martinez Alejandro : 2A8, 4A22
Martinez Alexandre Souto : 2A26
Martinez Javier : 1A28
Martinez-Pastor J. : 2P2
Martinez-Saavedra Jose Ramon : 1P1, 3P2
Martini Enrica : 3P2
Martini Matteo : 1A19
Martino Nicola : 1A37
Martins Leno : 1A12
Martorell Jordi : 3A22
Marus Mikita : 2P2
Marzal Vicente : 2P2
Mashanovic Goran : 1A18
Mashanovich G. Z. : 4A16
Mashanovich Goran : 3A8, 3A19, 4A14
Massaq Mustapha : 3A41
Massey-Allard Jonathan : 3A8
Masson J.-F. : 3A20
Masson Jean-Francois : 4A13
Matsubara Masakazu : 2A21
Matsumoto Toshiro : 1P2
Matsuzaki Korenobu : 3A39
Maurel Agnes : 3P2
Maurer Thomas : 1A30
Mauritsson Johan : 3A4
Maurya Santosh K. : 2P1
May Stuart : 3A28
Mayoral-Astorga Luis Angel : 1P1
Mazur Eric : 1A42, 3A24, 4A2
Mazur Yuriy : 1A25
Mazurski Noa : 3A8
McCutcheon Dara : 3A28
McCutcheon Dara P. S. : 2A9
McDonough Jennifer : 3A2
McKeever Conor John : 1A43
McLeod Alexander S. : 4A2
McPollin Cillian : 3A2
Meany T. : 3A15
Medard Francois : 2A25
Meijer Randy : 4A20
Meixner Alfred : 1A30
Meixner Alfred J. : 1A24, 2A7
Mejard Regis : 1A6
Melchakova I. V. : 4A17
Melchakova Irina : 4A17
Melnikau Dzmitry : 2A14
244
META’16 Malaga Program
Mendez Eugenio : 2A18
Mendez Eugenio Rafael : 3P2, 4A19
Mendez-Sanchez Rafael A. : 2A27
Menendez Jose Luis : 1A7
Mennea Paolo L. : 3A28
Meriggi Laura : 3A28, 4A14
Merlin Roberto : 2A8
Mertelj Tomaz : 1A37
Mertens Jan : 1A2
Mesch Martin : 1A39
Meseguer Francisco : 1A35
Mesfin Henok : 3P1
Mestres Pau : 4A22
Meunier Michel : 1P2, 3A22
Mexis Meletios : 2P2
Meyer zu Heringdorf F.-J. : 3A39
Mezzenga Rafaelle : 1P1
Miao Ziqi : 4A12
Michaeli Lior : 2A31
Michler Peter : 2A13
Midolo L. : 2P2
Midolo Leonardo : 1P2
Miguez Hernan : 1A35
Mihai Andrei : 4A6
Mihailovic Dragan : 1A37
Mihailovic Martine : 2A25
Mikkelsen Anders : 3A4
Milburn Thomas : 4A10, 4A10
Milichko V. A. : 1A33, 3A18
Million James : 4A20
Milton Finn-Purcell : 1A30
Min Bumki : 3P1
Min Changjun : 1A17
Min Kyungtaek : 1A23
Minguzzi Anna : 2A3
Miranda Miguel : 3A4
Miri M.-A : 3A21
Miri M.-A. : 4A21
Miri Mohammad-Ali : 1A36
Miroshnichenko Andrey E. : 2A26
Mirsadeghi S. Hamed : 3A8
Misawa Hiroaki : 2A22
Miseikis Vaidotas : 3P1
Misiewicz Jan : 2A3
Mitchell Colin : 3A8, 3A8, 4A14
Mitin Vladimir : 1A28, 2A5
Mittra Raj : 1A41
Mivelle Mathieu : 3P2
Miyake H. : 4A3
Miyata Masashi : 2A20
Mizoguchi Yuhta : 1P1
Mnaymneh Khaled : 1A39
Mohamed Abdalrahman : 1P2
Mohammadi Estakhri Nasim : 3A9
Mohd Hussin Ezzaty Faridah Nor : 3P1
Mohr Daniel A. : 4A4
Moille G. : 3A15
Moiseev Sergey : 1P1
Index
Moiseyev Nimrod : 4A10
Mok Jinsik : 3P2
Mokhtari B. : 3P1
Mokhtari Bouchra : 2P1
Molardi Carlo : 3A26
Moldovan Clara Fausta : 2A5
Molina-Cuberos Gregorio J. : 2P1, 3P1
Molina-Fernandez I. : 4A16
Molina-Fernandez Inigo : 2A29, 3A8, 3A8, 3A19, 3P2,
3P2, 3A32, 4A7
Molina-Terriza Gabriel : 3A10
Molinari Elisa : 1A39
Montelongo Yunuen : 4A20
Montes-Garcia Veronica : 3A34
Montesdeoca Denise : 1A35
Monticone Francesco : 2A26
Moon Hankyoul : 2P2, 2P2
moon Yoon-Jong : 2P2
Moon Yoon-Jong : 1P1, 1P1
Moorthy V. H. S. : 1P1
Morales Miguel : 1A7
Morales-Cruz Damasio : 1P1
Morales-Guzman Pablo I. : 2A22
Morales-Luna Gesuri : 4A9, 4A19
Morandotti Roberto : 4A5
Moreau Julien : 1P1
Moreno Fernando : 1A35, 2A18
Moretti Luca : 3A31
Morgado Tiago : 3A24
Mori Taizo : 3A2
Mori Torsten : 3A2
Morina S. : 2A3
Morina Skender : 3A5
Mork Jesper : 1P2, 2A9, 3P1, 3A15, 3A16, 3P2, 3A28
Morla-Folch Judit : 1A30
Mortensen N. Asger : 2A5
Mosallaei Hossein : 4A2
Moser P. : 3A32
Mosig Juan Ramon : 2A5
Mosk A. P. : 3A15
Mosk Allard P. : 1A21, 2P2
Moss David J. : 4A5
Mossad Hany : 1P1
Mostafa A. G. : 2P1
Mounaix Mickael : 1A9
Mounaix Patrick : 1A23
Mousavi Syed Hamed Shams : 4A16
Muhonen Juha : 4A20
Mukhin I. S. : 1A33, 3A18, 3A41
Mukhina Maria : 1A30
Muljarov Egor : 1A39
Muller Nicolas : 3A10, 3A31
Mullerova J. : 4A16
Mullerova Jarmila : 3A19
Mun Jungho : 3A34
Munday Jeremy : 3A22
Munoz Carlos Sanchez : 3A5, 3P2
Munoz G. : 4A9
245
META’16 Malaga Program
Munsch Mathieu : 4A5
Murad N. A. : 2P1, 2A32
Murad Noor Asniza : 1P2
Murakoshi Kei : 1A30
Murphy Antony : 3P2, 3P2
Murray E. : 3A15
Muskens Otto L. : 1A18, 2P1
Musselman Randall L. : 4A24
Musslimani Ziad : 1A20, 3A36
Musto Pellegrino : 4A23
Musumeci Paolo : 2A17
Myroshnychenko Viktor : 1P1
Na Jin-Young : 1P1, 1P1, 2P2
Nadkarni Vihang : 3A33
Nafidi Abdelhakim : 2P2, 3A41
Nagao Tadaaki : 4A15
Nagareddy Karthik : 2P2
Nagasaki Yusuke : 2A20
Nakamoto Kenta : 1P2
Nakamura Yuichi : 2P1
Nakanishi Toshihiro : 2A26
Nalimov Anton G. : 3P2
Nalitov A. V. : 1A16
Nascimento Clerisson : 2P2
Nash Geoffrey R. : 2P2
Natarajan Chandra M. : 3A28
Navarro-Cia Miguel : 1P2, 1A40, 3P1, 3A26, 4A24
Nawrodt Ronny : 4A2
Nazir Ahsan : 3A15
Nechepurenko Igor Alexandrovich : 3P1
Nedeljkovic M. : 4A16
Nedeljkovic Milos : 3A8, 3A8, 4A14
Nemec Hynek : 1A23
Nesterenko Dmitry V. : 2A26, 4A1
Nesterov Maxim : 3A35
Neugebauer Martin : 3P2
Neves Ana Luisa : 4A17
Ngah Razali : 3P1, 3P1, 3P1
Ngo Andrew Chun Yong : 3A9
Ni Jielei : 1A5
Nicholson Matthew : 3P2
Nie Kuiying : 1P1
Niegemann Jens : 3A8, 3A22
Nieto-Vesperinas Manuel : 2A18, 2A23, 3A27
Niimura Yusuke : 2P1, 2P1
Nikkhah Hamdam : 3A8
Nikolaev Alexey : 1P1
Nikolaeva Elena : 1P1
Nishida Munehiro : 2A26
Nishijima Yoshiaki : 1P1, 1A25
Nishio Natsuki : 1P1
Nishiyama Yoshio : 1A6
Nizard Harry : 2P1
Nocentini Sara : 4A19
Noda Susumu : 1A12
Nogues G. : 3A11
Noguez Cecilia : 1A30
Noji Katsuya : 3A37
Index
Norris David J. : 3A7
Noual Adnane : 1P1
Novoselov Kostya S. : 2A24
Novotny Lukas : 1P2
Nur-E-Alam Mohammad : 1A12
Nuzhdin Dmitry : 4A19
Nuzzo Ralph : 4A13
O’Carroll Deirdre M. : 3A37
O’Faolain Liam : 3P2
Obayya Salah Sabry : 1P2, 1P2, 1P2, 3A37
Obelleiro Fernando : 1A6
Octon Toby : 2P2
Odit Mikhail Aleksandrovich : 3P2
Odom Teri W. : 3A4
Ogrin Feodor : 1A43
Oh Cha Hwan : 3A24
Oh Joo Hwan : 2A12
Oh Sang Soon : 3P1
Oh Sang-Hyun : 4A4
Ohana David : 3A8
Ohta Shunsuke : 1A25
Ojambati Femi : 1A21, 2P2
Ok Jong G. : 3A25
Okamoto Hiromi : 1A6
Okubo Kyohei : 2P1, 2P1, 2P1
Olivares Jose : 4A22
Oliveira Luiz Eduardo : 2P1, 3A24
Olivero Aurore : 1P1
Olivier Nicolas : 1A18, 2A7
Oltulu Oral : 2P2, 2P2
Omar Ahmed Abdelmottaleb : 1A26
Omar Muhammad : 1P2
Omatsu Takashige : 3A7
Onanga F. A. : 1A8
Oonishi Naoto : 2P1, 2P1
Oppo Gian-Luca : 2A23
Orazbayev Bakhtiyar : 1P2, 4A24
Orenstein M. : 3A39
Oritz Dolores : 1A35
Orlov Alexey A. : 2A24
Orphal Laura : 3A24
Orrit M. : 1A19
Ortega-Monux A. : 4A16
Ortega-Monux Alejandro : 2A29, 3A8, 3A8, 3A19,
3A19, 3P2, 3P2, 3A32, 4A7
Osellame Roberto : 1A19
Osgood Jr. R. M. : 4A7
Ostachowicz Wieslaw Mieczyslaw : 2A27
Ostermann K. : 2A25
Ostrovskaya Elena : 2A3
Otsuji Taiichi : 1A28, 2A5
Ott Andreas : 1P1
Otter W. J. : 1P2
Oulton Ruth : 3A27, 4A5
Ourir Abdel : 3P2
Oussaid R. : 2P1
Ovcharenko A. I. : 3A41
Ovchinnikov Dmitry : 1A37
246
META’16 Malaga Program
Index
Owrutsky J. : 4A18
Pattelli Lorenzo : 4A19
Oxenlowe Leif Katsuo : 3A16
Pavesi L. : 2A16
Ozawa Tomoki : 1A16
Pavia Joao Pedro : 1P2
Ozbay E. : 2P2, 2A32
Pavlov Andrey : 1P1
Ozbay Ekmel : 2P1, 2A5, 2P2
Pavlovets Il’ya : 1P1
Ozdemir Sahin Kaya : 4A21
Peacock Anna : 4A14
Ozerov Igor : 1A40, 3P2
Pecharroman Carlos : 1A7, 1A35
Paarmann Alexander : 1A10
Pedersen Kjeld : 2P1, 4A1
Pacheco Pena Victor Manuel : 3P1
Pedros Jorge : 1A28
Padilla Willie : 3A3
Peisert Heiko : 1A24
Page A. F. : 1A28
Pellegrini Giovanni : 1A19, 1P2
Page Juan E. : 1A26
Pemble Martyn : 3A29
Pagliano Francesco : 1P2, 3A15
Pena Rodriguez Ovidio : 4A22
Pagneux Vincent : 2A27
Penades Jordi Soler : 4A14
Paiella Roberto : 2P2, 3A26
Pendry J. : 3A27
Painchaud Y. : 4A16
Pendry John B. : 2A1, 2A8
Painchaud Yves : 3A19
Peng Yu-Gui : 3A40
Palaz Selami : 2P1
Pennec Yan : 1P1, 2P2, 3A40
Palomba Stefano : 3A25
Perez Isabel : 2P2
Palomino Martha : 2P1
Perez-Galacho Diego : 2A29
Palomino-Ovando Martha Alicia : 2P2
Perez-Juste Jorge : 3A34
Palpant Bruno : 2A2
Perez-Lorenzo Moises : 3P2
Pan Jiangyong : 1P1, 1P1
Perez-Rodriguez Felipe : 1P2, 4A9
Pan Qiwei : 2A15
Perlado Jose Manuel : 4A22
Pan Yongdong : 2P2, 3A40
Perova Tatiana : 2A21
Panaro Simone : 1A13
Perrussel Ronan : 1P2
Panchenko Evgeniy : 2A20
Pertreux Etienne : 1A19
Pandey Apra : 3A22
Peruch Silvia : 3A2
Pang A. : 3A21
Peschel Ulf : 1A36
Paniagua-Dominguez Ramon : 1A15, 1A15, 1A35, Peters D. W. : 3A13
2A18
Peters David W. : 3A33
Pannico Marianna : 4A23
Petoukhoff Christopher : 3A37
Panoiu Nicolae : 3A37
Petrenko Sasha : 1A21
Panoiu Nicolae Coriolan : 2P1
Petri Christian : 1P2
Pansu R. : 2A2
Petronijevic Emilija : 2P1
Pantoja Mario F. : 1P2
Petrov Mihail : 3P2
Papadimopoulos Athanasios N. : 1P2, 1A41
Petrov Peter K. : 4A6
Papanikolaou Nikolaos : 1A40
Petrozza Annamaria : 1A37
Papes M. : 4A16
Petruzella Maurangelo : 1P2
Papes Martin : 3A19
Petruzzella M. : 2P2
Paradiso Rubina : 4A23
Petruzzella Maurangelo : 3A15
Parappurath Nikhil : 3P1
Petti Lucia : 4A23
Paredes Ferran : 4A11
Peyrade David : 4A23
Paredes-Perez Isabel : 2P1
Peyskens Frederic : 3A11, 3A29
Pariente Jose Angel : 1A35
Pezeril Thomas : 1A22, 3P2, 3P2
Park H. S. : 3P1
Pfeiffer Carl : 2A8
Park Hong-Gyu : 3P1
Pfeiffer M. : 2A13
Park Junghyun : 3A26
Phang Sendy : 1A20
Park Namkyoo : 2P2, 2P2, 3A6
Philbin Thomas : 1A32
Park Sae-June : 2A32
Pholchai Nitipat : 2A4
Park Won : 1A11
Piao Xianji : 2P2, 2P2, 3A6
Parker John A. : 3A7
Piau Gerard-Pascal : 3A33, 4A11
Parmeggiani Camilla : 4A19
Picard Emmanuel : 4A23
Parnell William J. : 2A27
Picard M.-J. : 4A16
Parpiiev Tymur : 3P2, 3P2
Picard Marie-Jose : 3A19
Parvaz Reza : 2P2
Pichugin Konstantin : 3A18
Paschos G. : 2A25
Pieczarka Maciej : 2A3
Pastoriza-Santos Isabel : 3A34
Pierrat Romain : 1P1, 1A29, 3A10
247
META’16 Malaga Program
Pietroy D. : 3P2
Pigeon Simon : 2A19
Pin Christophe : 4A23
Pince E. : 1A29
Pinchuk Anatoliy : 4A24
Pinheiro Felipe Arruda de Araujo : 2A26
Pintos Jean-Francois : 1A41
Pintos Jean-Frrançois : 1P2
Piragash Kumar R. M. : 1P1
Pirotta Stefano : 2A17
Pirruccio Giuseppe : 3P1
Pitanti Alessandro : 3P1
Pitchford William : 4A20
Plain Jerome : 1A7, 2A14, 4A15
Plotnik Yonatan : 3A36
Png C. E. : 3A17
Png Ching Eng : 3A29
Poddubny Alexander N. : 4A3
Poggio Martino : 4A5
pogna Eva A.A. : 1A37
Pohl Thomas : 2A23
Poirier Jean-Rene : 1P2
Polak M. : 2A21
Polewczyk Vincent : 3P2
Polini Marco : 1A23
Polizzi S. : 4A18
Pollard Robert : 3P2, 3P2
Pond J. : 4A16
Pond James : 3A8, 3A19, 3A22
Ponsinet Virginie : 1A11, 2A24
Poo Yin : 1A42
Poole P. J. : 1A39
Pooser Raphael : 2P1
Popov Evgueni : 1P1
Porras Montenegro Nelson : 2P2
Pors Anders : 1P1, 1A34
Porvatkina Olga : 2P1
Posner Matthew T. : 3A28
Potara Monica : 2P2
Poulin M. : 4A16
Poulin Michel : 3A19
Poumirol Jean-Marie : 2A5
Poupon Cyril : 4A8
Poutrina Ekaterina : 1A18
Pouya Caroline : 3A31
Pratavieira Sebastiao : 1P1
Prezgot Daniel : 1A25
Price Hannah M. : 1A16
Prijatelj Matej : 1A37
Principi Alessandro : 1A23
Priolo Francesco : 2A17
Prior Y. : 3A9
Proietti Zaccaria Remo : 4A1
Prokopov Anatoliy : 1A12
Protsenko I. E. : 3A4
Protsenko Igor : 3P1
Proust Julien : 1A7, 3P1, 3P2
Pruneri Valerio : 2P2, 3P2, 3P2, 4A13
Index
Pu Jing : 4A6
Pucker G. : 2A16
Puckett M. : 3A21
Puebla Ramon : 1A14
Puentes Margarita : 3A38
Pufahl Karsten : 1P1, 1A27
Pukhov Alexander : 2A28
Pukhov Alexander Alexandrovich : 3P1, 3P1
Pun Edwin Yue Bun : 1A34, 3P1
Putilin E. : 3A18
Puvirajesinghe Tania : 2A27
Pyatakov Alexander : 1P1
Qi Hao : 2A15
Qiao Shan : 1A41, 3P1
Qiu Cheng-Wei : 1A28, 3P2
Qiu Ciyuan : 4A14
Qiu Min : 1A13, 1A17, 3A37
Qu Che : 4A12
Qu Zhibo : 3A8, 3A8
Quidant Romain : 4A22
Quilis Nestor Gisbert : 1P2
Raaijmakers A. J. E. : 4A17
Raaijmakers Alexander J. E. : 4A17
Rabl Peter : 4A10, 4A10
Radzienski Maciej : 2A27
Ragni Roberta : 3A31
Rahim H. A. : 3P1
Rahim M. : 4A16
Rahim M. K. A : 2P1
Rahim M. K. A. : 2P1, 2A32, 3P1
Rahim Mohamed : 3A19
Rahimi Eesa : 2A20
Rahman Ashiqur : 3P1
Rahman Md. Atiqur : 1A41
Rahmani Mohsen : 3A26
Rahmouni Anouar : 2A26
Raineri Fabrice : 3A36
Rajkumar Jaiswar : 3P1
Rakovich Yury P. : 2A14
Ramahi Omar : 2P1, 2A4, 3P1, 4A24
Ramahi Omar M. : 3P1
Ramanathan Shriram : 2A15, 4A2
Ramezani Hamidreza : 1A20
Ramezani Mohammad : 3P1
Ramirez-Duverger Aldo Santiago : 1P1
Ramirez-Hernandez Josue : 1A36
Ramiro Manzano F. : 2A16
Ramos-Mendieta Felipe : 1P1, 2P2
Ramzan Rashad : 1P2
Ran Lixin : 1A41, 3P1
Rarity J. G. : 4A5
Rarity John : 3A27
Rashad Mohamed M. : 2P1, 4A18
Rastelli A. : 2A13
Ratni Badreddine : 3A33
Rau Sabrina : 3P2
Ravnik Miha : 2P1
Rawat V. : 3A33
248
META’16 Malaga Program
Rayan D. A. : 2P1
Raza Ali : 3A29
Razdolski Ilya : 1A10
Razzari Luca : 2A22
Rechtsman Mikael : 3A36
Rechtsman Mikael C. : 1A3, 1A16
Record P. : 3A16
Reed Graham : 1A18
Refki Siham : 1A13
Regensburger Alois : 1A36
Reimann Carolin : 3A38
Reimer Christian : 4A5
Reineke Bernhard : 2A4
Reinhard Bjoern : 2A18
Reininger Peter : 1A27
Reitzenstein Stephan : 2A28
Ren Fang-Fang : 3A29
Ren Fangfang : 1P1
Ren J. : 4A21
Ren Jie : 3P2
Ren Jun : 1P1
Ren Xi-Feng : 3A25
Ren Yuan : 3A25
Renner Michael : 3A10
Reno John : 3A6
Rensberg Jura : 4A2
Renversez Gilles : 3A18
Represa Jose : 2P1
Reshef Orad : 1A42, 3A24
Reveret Francois : 2A25
Reyes-Coronado Alejandro : 4A19
Rezapour Reza : 1P2
Reznychenko B. : 2A13
Rho Junsuk : 3A34
Riaziat M. : 3A32
Ribeiro M. A. : 1P2
Richard Maxime : 2A3
Richetti Philippe : 1A11
Richoux Olivier : 3A40
Richter Ivan : 1A40
Rigal Bruno : 3P1
Rimpilainen Tommi : 2A11
Rippa Massimo : 4A23
Ristanic Daniela : 1A27
Ritchie D. A. : 2A19, 3A15
Ritchie David : 3A25
Riveira Victor Antony Garcia : 1P1
Rivera Antonio : 4A22
Rivolta Nicolas : 1A36
Robatjazi Hossein : 2A22
Roberts Ann : 2A20
Rockstuhl Carsten : 1A40, 2P2, 3A7, 3P2
Rodier M. : 3P2, 3P2
Rodier Marion : 2A22, 3P2
Rodrigo Daniel : 4A13
Rodriguez Alejandro : 4A2
Rodriguez Said Rahimzadeh-Kalaleh : 3P1
Rodriguez-Canto P. : 2P2
Index
Rodriguez-Fernandez Jessica : 1A14
Rodriguez-Fortuno Francisco Jose : 4A22
Rodriguez-Gomez Arturo : 4A19
Rodriguez-Gonzalez Benito : 3P2
Rodriguez-Lara Blas Manuel : 1A36, 4A10
Rodriguez-Oliveros Rogelio : 1P1
Rodriguez-Ulibarri Pablo : 1P2
Rodt S. : 2A28
Rogachev Aleksandr : 3P2
Roger Thomas : 2P2, 2A25, 3A23
Rogers J. A. : 4A13
Roland Iannis : 2P2
Romero Abujetas D. : 3P2
Romero-Gomez Pablo : 3A22
Ronning Carsten : 4A2
Roser Steve : 4A20
Roshanaei Majid : 3P1
Rosolen Gilles : 3P2
Rotello V. M. : 3P2, 3P2
Rotello Vincent M. : 2A22, 3A7, 3A14
Rotter Stefan : 1A20, 1A29, 3A36, 4A10, 4A10
Rousseau Emmanuel : 2A28
Roussignol P. : 3A5
Roux P. : 2P2
Royall B. : 2A19
Roztocki Piotr : 4A5
Rubakhin S. S. : 4A13
Rubo Y. G. : 3A5
Rudner Mark : 3A36
Rudra Alok : 3P1
Rudzinski A. : 3A11
Ruesink Freek : 4A20
Rui Guanghao : 3A29
Ruini Alice : 1A39
Run M. X. : 3A17
Rupin Matthieu : 2P2
Rusak Evgenia : 1A40
Ruting F. : 1A33
Ryan Catherine Claire : 3A29
Rybka Tobias : 1A6
Ryu Jung-Wan : 2P1
Ryu Yong-Sang : 4A4
Ryu Yunha : 1A11
Ryzhii Maxim : 2A5
Ryzhii Victor : 1A28, 2A5
Ryzhikov Ilya : 2P2
S. Roberts Alexander : 2P1, 4A1
Sa’don Siti Nor Hafizah : 1A27, 2P1
Sabapathy T. : 3P1
Sabouroux Pierre : 4A17
Sada C. : 4A18
Sadofev Sergey : 3A24
Sadreev Almas : 2P1, 3A18
Saenz J. J. : 1A15
Saenz Juan Jose : 1A9, 1A9, 1A15, 1A29, 2A10,
3A10
Safwat Amr M. E. : 1A26
Sagle Laura : 3P2, 4A13
249
META’16 Malaga Program
Sagnes I. : 2A13, 3A5
Saha Shimul : 3A38
Saha Soham : 1A2
Saija Rosalba : 2A17, 2A17
Saikawa Mizuki : 2A21
Saito Shinichi : 3A19
Saiz Jose Maria : 1A35
Sakellari Ioanna : 3A35
Salakhitdinov Amriddin Nuritdinovich : 2P1
Salakhitdinova Maysara Kamolidinovna : 2P1
Salamo Gregory Joseph : 1A25
Saleh Hassan : 1P2
Saleh Shaker : 4A24
Salmon Jean-Baptiste : 1A11
Salut R. : 1A13
Samoril Tomas : 1P1, 1P1
Samsuri N. A. : 2P1, 2P1, 2A32
Samsuri Noor Asmawati : 3P1
Samsuri Nor Asmawati : 1A41
Samsuzzaman M. : 3P1
Samusev A. K. : 3A41
Sanad M. S. : 4A18
Sanchez Cano Robert : 2P2
Sanchez Mora Enrique : 4A9
Sanchez-Burillo Eduardo : 2A13
Sanchez-Dehesa Jose : 2A27
Sanchez-Gil J. A. : 1A15
Sanchez-Gil Jose Antonio : 2A18
Sanchez-Iglesias Ana : 2A14
Sanchez-Pena J. M. : 1P2, 3P2
Sanchez-Pena Jose Manuel : 1A15, 2P1, 2P2
Sanchez-Postigo Alejandro : 3A19, 3P2, 4A7
Sanchez-Royo J. F. : 4A5
Sandoghdar Vahid : 3A39
Sangouard Nicolas D. : 1P2
Santos Greggy : 3A20
Santos Paulo Ventura : 1A22
Sanz Juan Marcos : 1A35, 2A18
Sapienza Riccardo : 2A10
Saplacan Gavril : 2P1
Sarkar Mitradeep : 1P1
Sarma Raktim : 1A21
Sarmiento-Merenguel J. Dario : 3P2
Sarniak Rafal : 3P2
Sartorello Giovanni : 2A7
Sarychev Andrey K. : 2P2, 4A6
Sasaki Keiji : 3A6
Sasihithlu K. : 3A27
Satou Akira : 1A28
Sauvan Christophe : 1A31
Savateeva Diana : 2A14
Savo Romolo : 1A29
Savvidis P. G. : 2A3
Savvidis Pavlos : 2A25
Saxena Sumit : 2P1
Saydirasulov N. S. : 2P1
Sayed Mahmoud : 1P2
Scafirimuto Fabio : 2A25
Index
Schaferling Martin : 1A39
Scharoch P. : 2A21
Scheffold F. : 3A31
Scheffold Frank : 1A9, 2A10, 3A10
Scheid C. : 1A43
Schelew Ellen : 3A28
Schell Andreas W. : 2A28
Scherer Axel : 3A36
Scherer Norbert F. : 3A7, 3A27
Scherzinger Kerstin : 1A30
Schiefele Jurgen : 1A28
Schmid J. H. : 4A16
Schmid Jens : 3A19, 3P2, 4A7
Schmid Jens H. : 2A29, 3A19, 3A32
Schmidt F. : 2A28
Schmidt Mikolaj : 2A14
Schmidt Mikolaj K. : 3A10
Schmidt O. G. : 2A13
Schmidt R. : 2A28
Schmidt Rita : 4A8
Schmidt Ute : 2A21
Schmitt Nikolai : 1A43
Schnauber P. : 2A28
Schneider C. : 1A42
Schneider Christian : 2A3, 4A5
Schneider T. : 4A13
Schoenleber David : 3A21
Schomerus Henning : 4A10
Schon Gerd : 2A9
Schrenk Werner : 1A27
Schroeder-Turk Gerd Elmar : 3A31
Schubert M. : 2A25
Schubler Martin : 3A38
Schuck P. James : 3A4
Schuller Jon A. : 4A2
Schulz S. : 1A2
Schulze J.-H. : 2A28
Schumacher S. : 3A5
Schumacher Stefan : 3A30
Schumacher T. : 2A7
Schwarz Benedikt : 1A27
Schwarz Christian : 4A2
Schwarz L. : 2A16
Scotognella Francesco : 1A37, 3A31
Seat Han-Cheng : 1P2
Sedova Marina : 2P2
Segev Mordechai : 1A16, 3A21, 3A25
Segev Moti : 3A36
Seifert Tom : 3P2
Seifried M. : 2A28
Sek Grzegorz : 2A3
Sekkat Zouheir : 1P1, 1A13, 2A26, 4A1
Selga Jordi : 3P1
Seliuta Dalius : 3P1
Sellers Steven : 1P1, 3A10
Selles Julien : 2P2
Semenov Alexander : 3A13
Semond Fabrice : 2P2, 2A25, 2A25
250
META’16 Malaga Program
Index
Sendur Kursat : 3A39
Shields Philip Adam‘ : 2P1
Senellart P. : 2A13
Shih Wei-Chuan : 3A20
Seniutinas Gediminas : 1P1, 1A25
Shin Dongheok : 1P2
Seo Min-Kyo : 3P1
Shin Jonghwa : 3A20
Serga Alexander A. : 3P1
Shinde Satish Laxman : 4A15
Serna R. : 4A9
Shiu Ruei-Cheng : 1P1
Serna Rosalia : 1A11, 3P2
Shohaimi Norsuriati : 3P1
Serna Samuel : 1A12
Shoorian Hamed Reza : 1P2
Seung Hong Min : 2A12
Shramkova Oksana : 2P1, 4A10
Sewell Phillip D. : 1A20
Shukla Shobha : 2P1
Sha W. E. I : 4A16
Shur Michael : 1A28, 2A5
Sha Wei E. I. : 3A37
Sibilia Concita : 1A18, 2P1
Shaaban Adel : 1P2, 1P2
Sich M. : 2A19
Shabat M. M. : 3P1
Siddique R. H. : 3A31
Shabat Mohammed M : 2P1
Siddiqui Omar Farooq : 1P2
Shabat Mohammed M. : 2P2
Sigle Daniel : 3P2
Shabat Mohammed Musa : 2P1
Sigmund Ole : 3P2
Shahada Lamees : 1P1, 1P2, 4A7
Signoretto Mattia : 2P2
Shalaev Mikhail I. : 3A22
Sihvola Ari : 2A11, 3A23
Shalaev Vladimir : 1A2, 1A40, 2A8, 2P2, 2P2, 3A23, Sikdar Debabrata : 4A20
3P2, 4A11
Sikola Tomas : 1P1, 1P1, 1P1, 3P1
Shalaev Vladimir M. : 2A11, 3A9, 4A6
Silahli Salih : 3A30
Shalagatskyi V. : 1A22
Silva Otavio Brito : 1P1
Shalaginov Mikhail Y. : 2A11
Silveirinha Mario : 3A24, 4A19
Shalan A. E. : 4A18
Silvestre Enrique : 2A29
Shalin Alexander : 3P2
Simniskis Rimas : 3P1
Shaltout Amr : 1A2, 1A40, 2P2, 3A23, 3P2
Simsek Sevket : 2P1
Shaltout Amr M. : 3A9
Sinclair M. B. : 3A33
Shaposhnikov Alexander : 1A12
Sinclair Michael : 2A11
Sharac N. : 4A18
Sinclair Michael B. : 3A6
Sharma A. : 3A2
Sindler Michal : 1A23
Sharma Anshul : 3A2
Sinev I. S. : 3A41
Sharma Jadab : 2A14, 3A4
Singh Kalpana : 2A20
Sharma R. : 3A21
Singh Mandeep Jit : 3P1
Sharp Graham J. : 3A28
Singh Ranjan : 3A6
Shavit Reuven : 2A23
Sipe John E. : 1P1
Shavrov Vladimir : 2P2, 3P2
Sirtori Carlo : 2A19
Sheel David : 2P1
Skhondin Evgeniy : 2A24
Shegai Timur : 2A30
Skolnick M. S. : 2A19, 2A19
Shelykh I. A. : 3A5
Skolnick Maurice : 3A15
Shelykh Ivan : 3A5
Skryabin D. V. : 2A19
Shelykh Ivan A. : 3A5
Slablab Abdallah : 1A37
Shen Li : 4A14
Slekas Gediminas : 3P1
Shen Zeqing : 3A37
Slobozhanyuk Alexey : 4A8
Sheng Chong : 3A25
Slowik Karolina : 1A40, 3P2
Sheng Ping : 2A6
Smalley J. : 3A21
Shepherd Nolan : 3A7
Smetanin I. V. : 3A4
Sheremet A. S. : 3A5
Smetanin Igor Valentinovich : 3P1
Sherif Elsayed : 1P1, 4A7
Smirnov Aliaksandr : 2P2
Sherrott M. C. : 3A13
Smith David R. : 1A1, 1A33
Shi Chengzhi : 1A20, 2A6
Smith Peter G.R. : 3A28
Shi Norman Nan : 2A15, 4A12
Soh P. J. : 2P2, 2P2, 3P1, 3P1
Shi Wenxiong : 1A4
Soh Ping Jack : 2P1, 2P1, 2P2, 3P1, 3P1, 3P1, 3P1,
Shi Yi : 3A29
3P1, 3P1, 3P1, 3P1
Shi Z. : 1A21
Soifer Victor A. : 3P2
Shiao M. H. : 2P1
Soler Penades J. : 4A16
Shibanuma Toshihiko : 1A15
Soler Penades Jordi : 3A8
Shields A. J. : 3A15
Soler-Penades Jordi : 3A8
251
META’16 Malaga Program
Solis Diego M. : 1A6
Soljacic Marin : 1A3, 1A20
Solnyshkov Dmitry : 1A16, 2A25
Solomon Glenn S. : 3A28
Sols Fernando : 1A28
Somaschi N. : 2A25
Somaschi Niccolo : 2A13
Song Haojie : 4A24
Song M. : 3A41
Song Minghzao : 1A41
Song Ningfang : 1A25
Song Seok Ho : 2P1, 3A24
Sorel Marc : 3A28, 4A14
Sorger Volker J. : 4A1
Soriano Gabriel : 1P1, 1A29
Soukoulis C. M. : 3A12
Soukoulis Costas M. : 3A37
Sounas Dimitrios : 3A9, 3A21
Sousa-Castillo Ana : 3P2
Spatz J. P. : 3A20
Spektor G. : 3A39
Spitzer Felix : 2A7
Sreekanth Kandammathe Valiyaveedu : 2A11
Srinivasan Kartik : 3A28
Srivastava Yogesh Kumar : 3A6
Stafeev Sergey S. : 3P2
Staliunas Kestutis : 1A8
Stamboul Meriem : 1A19
Stamps Robert L. : 2A24
Stankovic Stevan : 3A8, 3A8
Stauber Tobias : 1A38
Steensma Bart R. : 4A17
Stefani Alessio : 2P1
Stefaniuk Tomasz : 1A18, 2A24
Stefanou Nikoalos : 1A40
Stein Aaron : 2A15
Steiner Ullrich : 3A31
Steinmetz David : 2A21
Steude A. : 2A25
Stoeferle Thilo : 2A25
Stone A. Douglas : 1A21
Stout B. : 3A23
Strain Michael : 4A14
Strain Michael J. : 3A28
Strait J. : 1P1
Strangi Giuseppe : 2A11
Stranik O. : 4A13
Strasser Gottfried : 1A27
Straubel Jakob : 1A40, 3P2
Strikhanov Mikhail : 2P1
Strikhanov Mikhail Nikolayevich : 2P1
Strittmatter A. : 2A28
Su Yikai : 4A14
Suarasan Sorina : 1P2
Suarez I. : 2P2
Suarez M. : 1A13
Sugavaneshwar Ramu Pasupathi : 4A15
Sugimoto Yoshimasa : 1P1
Index
Sukhorukov Andrey A. : 1A36
Sukhov S. : 1P1
Sukhov Sergey : 1A29, 3P2
Sun Gaoyong : 2A23
Sun Greg : 2A4, 4A2
Sun Handong : 1A37, 2P2
Sun Jingbo : 3A22
Sun Liuyang : 1A4
Sun Mao-Guo : 1A40
Sun Shulin : 1A34, 2A4, 4A12
Sun Shuo : 3A28
Sun Wujiong : 1A34
Sun Xiao Wei : 2P2
Sun Yong : 3P2
Sun Yongzhi : 1A41, 3P1
Sun Zhe : 4A5
Sun Zhiyuan : 2A24
Sutherland D. S. : 2A21
Sutherland Duncan Stewart : 1P2
Sutka Andris : 2P1
Svard Robin : 3A4
Svedendahl M. : 3A25
Svintsov Dmitry : 1A28
Swan Anna : 2P2
Sweatlock L. A. : 3A13
Sweedler J. V. : 4A13
Swillam Mohamed : 1P1, 1P1, 1P1, 1P2, 1P2, 3A11,
3A11, 3A21, 4A7
Swillam Mohamed A. : 1P2, 3A11
Sylgacheva Dariya : 1A12
Syperek Marcin : 2A3
Szameit Alexander : 3A36
Szoplik Tomasz : 1A18
T. Chu Sai : 4A5
Taboada Jose M. : 1A6
Taghinejad Hossein : 4A16
Taghinejad Mohammad : 4A16
Tait R. Niall : 1A36, 2P1
Takagi Hiroyuki : 2P1
Takahara Junichi : 2A20
Takahashi Toru : 1P2
Takayama Osamu : 2A24
Tamagnone Michele : 2A5
Tame Mark : 2A9
Tan Hark Hoe : 3A29
Tanaguchi Takashi : 2A24
Tanese D. : 3A5
Tang Kun : 1P1
Tang Weiwei : 1A40
Tang Xianfeng : 2A32
Tang Xiaoli : 2P1
Taniguchi Takashi : 1A23
Tanner Mike : 3A28
Tantiwanichapan Khwanchai : 2P2
Tardif Manon : 4A23
Tariqul Islam Mohammad : 1A41
Tarot Anne-Claude : 1P1
Tartakovskii I. I. : 1A42
252
META’16 Malaga Program
Tartakovsky Gennady : 4A6
Tasgin Mehmet Emre : 3A6
Tassin Philippe : 3A6, 3A12, 3A37
Tauke-Pedretti A. : 3A33
Tayeb Gerard : 1P1, 4A8
Tayel Mazhar B. : 3A38
Taylor Antoinette J : 2A4
Teh Bing Hong : 2P2
Teisseire Jeremie : 1A25
Teissier Jean : 4A5
Tejda Y. : 2A27
Tellechea Amagoia : 3P2
Temirov Yuri : 1P2
Temnov V. V. : 1A22
Temnov Vasily : 1A10, 1A22, 3P2, 3P2, 3P2
Teng Jing Hua : 3A9
Teng Jinghua : 2A20, 2P2
Tenner V. T. : 1A18
Teo Jonathon Yi Han : 3A26
Terzaki Konstantina : 3A35
Tessier Gilles : 4A15
Tetikol H. S. : 1P1
Teulle Alexandre : 3A4
Thamer M. : 1A37
Theocharis Georgios : 1A22, 2P1, 3A40
Thijssen A. C. T. : 4A5
Thijssen Arthur : 3A27
Thijssen Rutger : 4A20
Thirunavukkarasu G. : 1A43
Thoma A. : 2A28
Thomann Isabell : 2A22
Tian C. : 1A21
Tian Jingyi : 1A17
Tidy Nicholas : 1A29
Tie Shao-Long : 3A18
Tignon J. : 3A5
Tikhodeev Sergei G. : 1A42
Timbrell Daniel : 2P1
Timusk Martin : 2P1
Tinkler L. : 2A19
Tira Cristian : 1P2
Tischler Joseph G. : 2A24
Tishchenko Alexey : 2P1
Tishchenko Alexey Alexandrovich : 2P1
Tobey Raa’nan Itzhak : 1A22
Tobey Raanan : 1A22
Todorov Y. : 2A19
Togan Emre : 4A5
Toledo-Solano Miller : 2P1
Toma Andrea : 4A1
Tomescu Roxana : 2P2
Tong Jonathan K. : 2A18, 3A13
Tongay S. : 2A21
Topaktas Omer : 2A21
Topolovsek Peter : 1A37
Torimoto Tsukasa : 2A22
Torrent Daniel : 1A11, 2P2
Torres A. : 1A30
Index
Torres-Company Victor : 2A29
Totero Gongora Juan Sebastian : 1P2
Toudert J. : 4A9
Toudert Johann : 1A11, 3P2
Tournat Vincent : 1A22, 2P1
Tran Minh Ngoc : 3P2
Trave E. : 4A18
Travkin Evgenij : 3A24
Tredicucci Alessandro : 3P1, 3P2
Treguer-Delapierre Mona : 1A11
Tretnak Veronika : 3A8
Tropf L. : 2A25
Tsai Cheng-Chia : 4A12
Tsai Din Ping : 2A4, 4A2
Tsai Wei-Yi : 2A4, 4A2
Tsang Hon Ki : 3A19
Tseng Ming Lun : 4A2
Tsiboukis Theodoros D. : 1P2, 1A41
Tsintzos S. I. : 2A25
Tsironis G. P. : 2P1, 4A10
Tsironis Georgios : 1A20
Tsitsas Nikolaos L. : 1A41
Tsukernik Alexander : 3A22
Tsurimaki Yoichiro : 3A13
Tsypkin A. : 3A18
Tu Yi-Chou : 3A20
Tuchin Valery Victorovich : 3A20
Tuinz Alessandro : 2A24
Tullius R. : 3P2
Tullius Ryan : 2A22, 3A7, 3A14, 3P2, 3P2
Tumkur Thejaswi : 2A22
Turek Vlad : 4A20
Turkmen Mustafa : 1P1, 2A21, 3P1
Turquet Leo : 1A37
Turvey Miranda : 3A28
Tyc Matej : 3P1
Tyc Tomas : 3A12
Tymchenko Mykhailo : 3A9
Tzarouchis Dimitrios C. : 3A23
Udrea Florin : 1A41
Ueno Kosei : 2A14
Umezawa Naoto : 4A15
Ungureanu Bogdan : 2A12
Unser Sarah : 3P2, 4A13
Upham J. : 1A2
Urasinska-Wojcik Barbara : 1A41
Urbach H. Paul : 3A6
Urban Maximilian Julius : 1A4
Urbas Augustine : 1A18, 1A23, 3P2
Urbonas Darius : 2A25
Urruchi V. : 3P2
Urruchi Virginia : 1A15
Uskov A. V. : 3A4
Uskov Alexander : 3P1
Ustinov A. V. : 2P1
Vachon M. : 4A16
Vachon Martin : 3A19, 3A19
Vagov Alexei : 3A23
253
META’16 Malaga Program
Vaianella Fabio : 1P2
Vaidyanathan Sagar : 3A34
Vaitkunas Andrius : 3P1
Valagiannopoulos Constantinos A. : 1A41
Valenzuela-Sau Jesus D. : 2P2
Valev Ventsislav K. : 1A37
Vallee Fabrice : 1A19
Vallini F. : 3A21
Valuev Ilya : 2P2
van Dam D. : 3P2
van den Berg C. A. T. : 4A17
Van den Berg C. A. T. : 4A17
van der Heijden Rob : 1P2
Van Dorpe Pol : 1A35, 3A11
van Exter M. P. : 1A18
van Kruining Koen Corstiaan : 2A23
van Otten F. W. M. : 2P2
van Otten Frank : 1P2
Vandenbosch Guy A. E. : 3P1, 3P1
Vardaxoglou Yiannis : 1P2, 1A41
Varga Peter : 1P1
Vasa Parinda : 2A30
Vasanelli A. : 2A19
Vasi Cirino Salvatore : 2A17
Vasic Borislav : 1A2
Vasilantonakis Nikolaos : 4A6
Vasiliev Mikhail : 1A12
Vasinek V. : 4A16
Vasinek Vladimir : 3A19
Vaudel Gwenaelle : 3P2
Vavassori Paolo : 1A30
Vazquez-Estrada Omar : 4A19
Vedral James : 4A24
Vega-Mayoral Victor : 1A37
Vegas Angel : 3P1
Vela Yael Gutierrez : 2A18
Velasco A. V. : 3A32, 4A16
Velasco Aitor V. : 3A19
Velez Paris : 3P1
Velez Saul : 1A23
Vella Daniele : 1A37
Velleman Leonora : 4A20
Velu S. K. P. : 1A29
Vengurlekar Arvind S. : 2A7
Venkatesh Alagesan : 1P1
Verbiest Thierry : 1A37
Vercruysse Dries : 1A35
Verellen Niels : 1A35
Vergaz R. : 1P2, 3P2
Vergaz Ricardo : 1A15, 2P1
Vergeles Sergey S. : 4A6
Verhagen Ewold : 1P2, 3P1, 4A20
Verney E. : 3P2
Verre Ruggero : 3A25
Vetoshko Petr : 3P2
Viaene Sophie : 3A12
Viarbitskaya Sviatlana : 1A6, 2A14, 3A4
Viarbitskaya Universite Federale de Toulouse : 1P1
Index
Vidal Xavi : 3A10
Vignaud Alexandre : 4A8, 4A17
Vignolini Silvia : 1A21
Vina Luis : 2A3
Vincent Julien : 1P2
Vinogradov Alexey Petrovich : 3P1
Viola Daniele : 1A37, 1A37
Viquerat J. : 1A43
Vivien Laurent : 1A12, 2A29, 3A32
Vlasov V. S. : 1A22
Vlasov Vladimir : 1A22, 3P2
Vocke David : 2A25
Voitova T. : 3A18
Volkov Valentyn S : 2A20
Vollmer F. : 2P1
Volpe Giorgio : 1A9, 1A25, 1A29
Volpe Giovanni : 2A10
von Freymann Georg : 3A10
Von Weber A. : 1A37
Vona Danilo : 3A31
Vondran Jonas : 2A7
Voogt I. J. : 4A17
Vorobyov Vadim V. : 2A11
Vos Willem L. : 1P1, 1A21, 2P2
Voti Roberto Li : 2P1
Vujicic Natasa : 1A37
Vukovic Ana : 1A20
Vukusic Peter : 2P2, 3A31
Vulis Daryl Inna : 1A42, 3A24
Vuong T. H. : 1A40
Vynck Kevin : 1P1, 1A17, 1A18
Waguemert-Perez Gonzalo : 3A19
Waks E. : 4A3
Waks Edo : 3A28
Walasik Wiktor : 3A30
Walker P. M. : 2A19
Wall Simon : 3P2
Wallen Henrik : 2A11
Walther Markus : 2A24
Wan Muhamad Wan Asilah : 3P1, 3P1, 3P1
Wan Wenjie : 4A21
Wang Bing : 1A31, 3P2
Wang C. H. : 3A16
Wang Chun : 1A41, 3P1
Wang Chun-Yuan : 1A4
Wang Deyong : 2P1
Wang Di : 2A8
Wang Guanghao : 2A6
Wang Guo Ping : 1A34
Wang Hao : 1P1, 2A2
Wang J. : 3A8
Wang Jian : 4A14
Wang Jianfang : 1A4
Wang Jie : 1A31
Wang Jiyong : 2A7
Wang Junfeng : 4A24
Wang Lin : 1P2, 1A40
Wang Pei : 4A24
254
META’16 Malaga Program
Wang Qian : 4A6
Wang Qianjin : 4A1
Wang Qijie : 3A9
Wang S. : 4A16
Wang Shaojun : 1A25
Wang Shiang-Jiu : 4A2
Wang Shubo : 3A12
Wang Shurui : 2A29, 3A19, 3A32, 4A7
Wang Tian : 3A40
Wang Wei : 1A13
Wang Wei-Ren : 2A22
Wang Weihua : 2A5
Wang X. H. : 3A35
Wang Xiao : 1A24
Wang Xiaohua : 1P2
Wang Xiaotian : 2A2
Wang Xinke : 2A15
Wang Xu : 3A8
Wang Xuan : 2A24
Wang Xuanye : 2P2
Wang Xue-Hua : 1P1
Wang Yikuan : 3A23
Wang Yu Winston : 3A20
Wang Yuan : 1A20, 2A6
Wang Yudong : 1A18, 2P1
Wang Yue : 2P2
Wang Yulin : 2A20, 3P2
Wang Yun : 3A19
Wang Zeng : 2P2
Wang Zhanliang : 2A32
Wang Zhiming : 3P2
Wanguemert-Perez G. : 4A16
Wanguemert-Perez Gonzalo : 3A8, 3A19
Wanguemert-Perez J. Gonzalo : 2A29, 3A8, 3P2
Wanguemert-Perez Juan : 4A7
Wanguemert-Perez Juan Gonzalo : 3P2
Wanguemert-Perez Juan-Gonzalo : 3A32
Warburton Richard J. : 4A5
Warne Larry : 3A6
Watanabe Kenji : 1A23, 2A24
Watanabe Takayuki : 1A28
Webb A. G. : 4A8
Wee F. H. : 3P1, 3P1
Wehner Rudiger : 4A12
Wei Hong : 2A30
Wei Lei : 3A6
Weigend Florian : 1A40
Weimann Steffen : 3A36
Weismann Martin : 3A37
Weiss T. : 1A42
Weiss Thomas : 1A39
Weizmann Youssef : 3A7
Weller Lee : 1P2
Welna M. : 2A21
Wen Bo : 3A29
Wen Dandan : 1A34, 3P1
Wen Jianming : 1A36
Wendt J. R. : 3A33
Index
Wendt Joel : 3A6
Werner Douglas H. : 1P2
Werner Pingjuan L. : 1P2
Wersall M. : 2A30
Wetzel Benjamin : 4A5
Whittaker C. : 2A19
Whittaker D. M. : 2A19
Whittaker David M. : 1P2
Whittow Will : 1A41
Wiater M. : 3A11
Wicharn Surawut : 2P1
Wiederrecht Gary P. : 1A6, 2A7, 3A2
Wiersma Diederik : 4A19
Wiersma Diederik Sybolt : 2A17
Williams R. L. : 1A39
Wilson Kali : 2A25
Wilts Bodo D. : 3A10
Wimmer Martin : 1A36
Wirth J. : 4A13
Withayachumnankul Withawat : 2A4
Wittenberg Nathan J. : 4A4
Woessner Achim : 1A23
Woggon Ulrike : 1P1, 1A27
Wohlfeil B. : 2A28
Wojtowicz T. : 3A11
Wolf D. : 2A7
Wolf Martin : 1A10
Wong Liang Jie : 3A26
Wong Polis Wing Han : 1A34
Wong Wei Ru : 4A16
Woo Kelly : 3A34
Worley LaShanda : 3A2
Worsfold S. R. : 2P2
Wouters Michiel : 2A3
Wozniak Pawel : 3P2, 3P2
Wray Parker : 2A22
Wright Christopher David : 2P2
Wright David : 2P2
Wright Ewan M. : 2A25
Wronkowska Aleksandra : 1A18
Wronkowski Andrzej : 1A18
Wu Huijun : 4A2
Wu Jeong Weon : 1A40
Wu K. : 2A21
Wu Linda Y. L. : 2A2
Wu Pei Ru : 4A2
Wu Pin Chieh : 2A4, 4A2
Wu Qing Yang Steve : 2P2
Wu Reixin : 3A29
Wu Rui Fen : 3A9
Wu Rui-Xin : 1A42
Wu Tong : 1A42, 3A7
Wu X. : 2A13
Wu Xiaofei : 1A19, 1P2
Wubs Martijn : 1P1, 2A5
Wuester Sebastian : 3A36
Wunner G. : 2A16
Wurtz Gregory : 2A7, 3A2
255
META’16 Malaga Program
Xi Zheng : 3A6
Xia Tian : 1P2
Xia Xiaoxiang : 3P2
Xiao Long : 3A25
Xiao Meng : 1A16, 2A27
Xiao Min : 1A36
Xiao Qian Xun : 4A24
Xiao Shiyi : 1A34
Xing Yuxin : 1A41
Xiong Xiao : 3A25
Xiong Xiaoyan Y.Z. : 3A37
Xomalis A. : 3A12
Xomalis Aggelos : 3A35
Xu ChangQing : 2P1
Xu D. -X. : 4A16
Xu Dan-Xia : 2A29, 3A19, 3A19, 3A32, 4A7
Xu Fei : 3A29
Xu Gaiqi : 1A27
Xu Hongxin : 3A4
Xu Hongxing : 2A30
Xu Jingjun : 1A31, 3A18
Xu Ningning : 3A6
Xu Wei-Zong : 3A29
Xu X. B. : 3A34
Xu Ye-Long : 4A21
Xu Yelong : 3A36
Xu Yi : 3A18
Xue J. : 3A35
Xue Jiancai : 1P1
Xue Weiqi : 3A16
Xue Yuxiong : 3A29
Y. Nikitin Alexey : 1A23
Yacomotti Alejandro : 3A36
Yadav Deepika : 1A28
Yakovlev D. R. : 3A11
Yakovlev Dmitri R. : 2A7
Yakubovsky Dmitry I. : 2A20
Yam Vi : 1P1
Yamamoto Naoki : 1P1
Yamamura Takuya : 1P1
Yamilov Alexey : 1A21
Yan Feng : 3A29
Yan Sen : 3P1
Yan Wenjing : 1A23
Yan Zijie : 3A27
Yang Bing : 1A42
Yang Chi-Yin : 1A40
Yang Chih-Chung : 3A20
Yang Daejong : 3A34
Yang Deren : 3P2
Yang Hangbo : 1A13
Yang Hongjun : 3A32
Yang Hyunsoo : 4A15
Yang J. : 2A9
Yang Jianji : 1A17
Yang Joel K. W. : 3A2
Yang Kuang-Yu : 2A4
Yang Lan : 4A21
Index
Yang Meng : 3A29
Yang Shengyan : 3P2
Yang Wei : 1P2, 2P1
Yang Yuanjie : 1A43
Yang Yuanqing : 1A17
Yang Zhaoju : 2A12
Yannopapas Vassilios : 1A40
Yao Alison : 2A23
Yao Yu : 4A12
Yazidi Senda : 4A22
Ye Dexin : 1A41, 3P1
Ye Jiandong : 1P1, 3A29
Ye Shi-Cheng : 1A40
Ye W. N. : 4A16
Ye Winnie N. : 3A19
Yeganegi E. : 2P2
Yeo Jong-Souk : 4A23
Yeo Reuben J. : 4A15
Yepez Miztli : 2A10
Yermakov O. Y. : 3A41
Yi Jianjia : 4A11
Yilmaz Hasan : 1A21
Yin Mei : 1A42, 3A24
Yin Xinghui : 3A35
Yindeesuk Witoon : 2P1
Yla-Oijala Pasi : 3A23
Yokoyama Takahiro : 4A15
Yoneda Takuya : 1P1
Yoo Daehan : 4A4
Yoon Euijoon : 1P1
Yoon Jae Woong : 2P1, 3A24
Yoon Seokhyun : 2P2, 2P2
You Oubo : 4A1
You Y. K. : 3P1, 3P1
Younesy Salma : 2A21
Young A. B. : 4A5
Young Andrew : 3A27
Young Jeff : 3A28
Young Jeff F. : 3A8
Yu H. : 1A10
Yu Hao : 3A9, 4A1
Yu Jian-He : 3A20
Yu K. : 1A17
Yu Nanfang : 2A15, 4A12
Yu Renwen : 2A5, 2P2, 3P2
Yu Siyuan : 4A14
Yu Sunkyu : 2P2, 2P2, 3A6
Yu Y. F. : 1A35
Yu Yi : 1P2, 3A16
Yu Zhiping : 3A13
Yu Zongfu : 4A12
Yuan Jun : 1A43
Yuan Lierong : 4A1
Yuan Xiaocong : 1A17
Yue Fuyong : 1A34, 3P1
Yue Weisheng : 2A7
Yuen-Zhou Joel : 1A16, 1A22
Yulin A. : 2A19
256
META’16 Malaga Program
Yulin Alexey : 3A18
Yun Han : 3A19
Yusupov Aminjon Abdurashidovich : 2P1
Yvind Kresten : 3A16
Zabala Nerea : 2P1
Zabkov I. V. : 1P1
Zahid Liyana : 3P1
Zainudin M. S. : 2P1
Zaki Aya : 1P1, 1P1, 3A11
Zambrana-Puyalto X. : 3A23
Zambrana-Puyalto Xavier : 2A23, 3A10
Zamora Gerard : 4A11
Zanotto Simone : 3P1, 3P2, 4A19
Zayats Anatoly : 1A18, 2A24, 4A6
Zayats Anatoly V : 3A2
Zayats Anatoly V. : 2A7
Zeitler Axel : 3A25
Zemanek P. : 2P2
Zeng Beibei : 2A4
Zeng Hao : 4A19
Zeng Yijia : 2P2
Zeng Yongquan : 3A9
Zengin G. : 2A30
Zentgraf Thomas : 2A4
Zerrad Myriam : 1P1, 1A29, 2A27
Zeuner Franziska : 2A4
Zeuner Julia M. : 3A36
Zhan Qiwen : 3A29
Zhang Baile : 2A12
Zhang Chen-Zhao : 3A28
Zhang Cheng : 4A24
Zhang Chunxi : 1A25
Zhang Dai : 1A24, 2A7
Zhang Fan : 3A19
Zhang Fuli : 1A26
Zhang Guo-Gang : 3A29
Zhang Guoquan : 1A31
Zhang H. : 2A13
Zhang Hui : 1A25
Zhang Jianming : 2A22
Zhang Jingjing : 2A7
Zhang Junxi : 4A24
Zhang Kai : 3A13
Zhang Lei : 4A1
Zhang Lichao : 1A17
Zhang Lide : 4A24
Zhang Likun : 2A23
Zhang Lin : 4A24
Zhang Pu : 1A43, 2A27
Zhang Rong : 1P1, 3A29
Zhang Shiyu : 1A41
Zhang Shuang : 1A34, 1A34, 2A4, 3P1, 3P1
Zhang Shuyan : 4A2
Zhang W. : 1A19
Zhang Wei : 3A16
Zhang Weili : 3A6
Zhang Weiwei : 1A12
Zhang Xiang : 1A20, 2A6
Index
Zhang Xiangdong : 1P1, 1A42, 3A7
Zhang Xuejin : 4A1
Zhang Yabin : 2A32
Zhang Yan : 2A15
Zhang Yaxin : 1A27
Zhang Ying : 3A9
Zhang Yinping : 2A14
Zhang Yong : 4A14
Zhang Yuning : 1P1
Zhang Yuquan : 1A17
Zhang Z. Q. : 1A16, 2A27
Zhao Deyin : 3A32
Zhao Fusheng : 3A20
Zhao Hang : 1A17
Zhao Junming : 3A14
Zhao Xin : 2A18
Zheludev Nikolay I. : 2A4, 4A2
Zheng Guoxing : 1A34
Zheng Li-Yang : 2P1
Zheng Youdou : 1P1
Zheng Yuanlin : 4A21
Zheng Zebo : 2A21
Zhong Fan : 1A34
Zhong Ying : 1A17
Zhong Yu : 1P2
Zhou Jiangfeng : 3P2
Zhou Jun : 4A23
Zhou Lei : 1A34, 2A4, 4A12
Zhou Ming : 4A12
Zhou Ning : 3P2
Zhou Weidong : 3A32, 4A14
Zhou Wen : 3A19
Zhou Yong Jin : 4A24
Zhou You : 2A15, 4A2
Zhou Zhang-Kai : 1P1, 2A2, 3A35
Zhu Anjie : 1A41, 3P1
Zhu Bing Qing : 3A19
Zhu Bo : 3A14
Zhu Hu : 3A20
Zhu Jian-Gang (Jimmy) : 4A15
Zhu Jiangbo : 4A14
Zhu Ke-jia : 3P2
Zhu L. : 4A16
Zhu Shining : 1A34, 2A20, 3P2, 3A25
Zhu Xue-Feng : 3A40
Zhu Xue-Yi : 4A21
Zhu Yongyuan : 4A1
Zhu Zhendong : 1A5
Zhukovsky Sergei : 2A24, 2A24
Zhuravlev Anton : 2P1
Zielinska - Raczynska Sylwia : 3P2, 3P2
Ziemkiewicz David : 3P2, 3P2
Zilberberg Oded : 1A16
Zobenica Z. : 2P2
Zobenica Zarko : 1P2, 3A15
Zografopoulos Dimitrios C. : 1A2, 1P2, 3A11
Zolotovskii I. : 1P1
Zopf D. : 4A13
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META’16 Malaga Program
Zou Bin : 4A6
Zou Chang-Ling : 3A25
Zou Yi : 4A21
Zoysa Menaka D. : 1A12
Zubir F. : 2P1, 2A32
Zueco David : 2A13
Zuev D. A. : 1A33
Zuffanelli Simone : 4A11
Index
Zulina Natalia : 1P1
Zuniga-Perez Jesus : 2A25, 2A25
Zur Oven-Krockhaus Sven : 1A30
Zvezdin Anatoly : 3P2
Zyablovsky Alexander Andreevich : 3P1, 3P1
Zyss Joseph : 4A23
258