Podklady k zahájení řízení ke jmenování profesorem v oboru

Transcription

Universita Palackého v Olomouci
Přírodovědecká fakulta
Palacký University Olomouc
Faculty of Science
Podklady k zahájení řízení ke jmenování profesorem
v oboru Optika a optoelektronika
Documents to initiate a procedure of promotion to
Full Professor of Optics and Optoelectronics
Doc. Mgr. Radim Filip, PhD.
katedra optiky, Přírodovědecká fakulta
Universita Palackého
Department of Optics, Faculty of Science
Palacký University Olomouc
Olomouc, November 2015
Personal information:
Name: doc. Mgr. Radim Filip, Ph.D.
Date and place of birth: 24.10.1970, Frýdek-Místek, Česká Republika
Nationality: Czech
Occupation: Associated Professor (docent)
Position: Head of Quantum Optics Theory Group, Department of Optics
Employee: Faculty of Science, Palacký University Olomouc,
17. listopadu 1192/12, 771 46 Olomouc
Contact: Department of Optics, Faculty of Science, Palacký University Olomouc
Olomouc, 17. listopadu 1192/12, 771 46 Olomouc
Telephone: 585634249
e‐mail: [email protected]
web: http://muj.optol.cz/filip
Field of research and teaching:
Quantum Optics, Quantum Communication, Quantum Information Processing,
Quantum Optomechanics, Laser Physics, Atomic Physics.
Scientific, teaching and managing contribution (in English):
The main subject of my intensive research for over the last 15 years has been a wide
theoretical investigation of feasible quantum nonlinear operations with states of light
and their applications dominantly in optical communication technology. My deep
scientific expertise is in the field of generation, propagation, manipulation, and
detection of quantum states of light. My research in not only theoretical, it broadly
includes collaboration with various experimental teams. It is an essential part of my
research work. It often allows not only to test my theoretical proposals, but I mainly
continually gain inspirations from the experiments. Moreover, the vast majority of
outcomes of my research are proposals for new experiments. It is an important
specifics of my theoretical research. My major scientific contribution is new
theoretical investigation and collaboration on multiple feasible experimental proposals
in these topics:
Generation, detection and identification of nonclassical features of light
Amplification and duplication of quantum states of light
Non-destructive quantum measurement of light
Nonlinear measurements and nonlinear operations with quantum states of light
Decoherence and protection of quantum states of light
Measurement-induced electro-optical control of quantum states of light
Quantum communication with nonclassical states of light.
All these theoretical proposals have already been experimentally tested with visible
impact on the scientific community, which can be documented by a number of
citations. They demonstrate the completeness of my research ranging from
fundamental quantum aspects of light to major application of nonclassical light in
optical communication technology. The most prominent are proposals on noiseless
quantum amplification of light, distillation of continuous-variable squeezed and
entangled states of light and quantum key distribution with squeezed states of light,
published together with the experimental tests twice in Nature Physics and once in
Nature Communication. They represent a major scientific world-wide milestones of
the field of quantum optics with continuous-variable states of light. These milestones
combine the feasibility of experimental quantum optics with the modern quantum
theory and the information/communication theory. These milestones also highly
contributed to the current state of scientific excellence of quantum optics in the Czech
Republic. For this reason, I have been awarded with the Special Recognition of the
Czech Science Foundation for my start-up junior grant. Later, I received the
prestigious Prize of President of Czech Science Foundation for my research projects. I
obtained both recognitions mainly due to my innovative theoretical approach that is so
strongly experimentally oriented.
Many of my proposals have been experimentally tested in the world’s best
laboratories. This is thanks to a fruitful, broad and long-term collaboration with many
experimental teams abroad, which I have personally initiated. This collaboration has
been intensified by many of my foreign scientific stays and continuous stream of
research grants, including projects of the Framework Programmes of European
Union. To continue this broad collaboration, I annually organize a Workshop “Photons
Beyond Qubits” at the Palacký University. It is attended by many international
speakers from the world’s leading laboratories. Many theoretical proposals have also
been tested in our laboratories at the Department of Optics and at the Joint
Laboratory of Optics in Olomouc. In this way, my theoretical ideas helped to the
development of experimental quantum optics at the Palacký University. I presented the
majority of results at international conferences and workshops and also seminars at
many domestic and foreign universities, including more than twenty invited conference
talks during the last five years.
My research is inseparable from my teaching at Palacký University. During the last
decade, I have innovated the obligatory Laser Physics and Quantum Optics courses. I
have also introduced new follow-up lectures of Quantum Oscillators and Quantum
Information Processing. During this decade, my research in Olomouc has involved
many domestic and foreign young Postdocs, PhD students and Master students.
Individually, they have gained both scientific experience and practice from our
collaboration, which is documented by a large number of joint publications. At this
point, I have exploited experience from my scientific stay as the Alexander von
Humboltd Fellow at the Max-Planck Institute for Science of Light in Erlangen. Thanks
to the continuous financial support from both domestic and international grants, I have
developed the Quantum Optics Theory Group at the Department of Optics, running
since 2006. Research directions of this internationally recognized group cover the
entire range from fundamental quantum aspects of light to current applications in
optical communication.
Two years ago, the research in my group widely expanded beyond the quantum
operations with light. We are now going towards new horizons of many applications
of nonclassical light in atomic physics and towards an emerging field of quantum and
nonlinear optomechanics. This expansion is supported by the Centre of Excellence for
Classical and Quantum Interaction in Nanoworld funded by the Czech Science
Foundation. Two years ago, this Centre was founded together with the Institute of
Scientific Instruments of the Czech Academy of Sciences in Brno. I am in a charge of
this Centre as a Scientific Director. It supports many domestic and foreign PhD
students and postdocs, who I am currently supervising. However, it mainly allows to
substantially broader our theoretical investigations and build experimental platforms
of macroscopic atomic ensembles interacting with light, quantum mechanics of
trapped ions and nonlinear mechanics in optical tweezers that are completely new in
the Czech Republic.
Education and career:
2014-now: Scientific Director of the Centre of Excellence for Classical and Quantum
Interactions in Nanoworld of the Czech Science Foundation, Palacký University
Olomouc and ISI CAS, Brno
2012-2014: Mentor of project POSTUP I of the Czech Ministry of Education
2011-2014: Activity Manager of the International Centre for Information and
Uncertainty, Palacký University Olomouc, http://mcin.upol.cz/
2010: visiting professor at Ecole Normale Superior Paris-Cachan
2006–now: docent (Associated Professor) at the Department of Optics, Palacký
University Olomouc
2005-2006: Alexander von Humboldt Fellow, the Max Planck Institute for Science of
Light in Erlangen, Germany
2005: habilitation, the Faculty of Science, Palacký University Olomouc,
specialization: Optics and optoelectronics, Habilitation Thesis: „Quantum noise
in optical measurement, communication and information processing”
2002–2005: researcher at the Department of Optics, Faculty of Science, Palacký
University Olomouc
1998-2002: PhD study (continuation): the Faculty of Science, Palacký University
Olomouc, specialization: Optics and optoelectronics,
PhD Thesis: ”Mesoscopical aspects of quantum complementarity,
nonlocality a decoherence”
1996-1998: obligatory civil service (the Faculty Hospital Olomouc)
1994–1996: PhD study: the Faculty of Science, Palacký University Olomouc,
specialization: Optics and optoelectronics
1989-1994: Master study: the Faculty of Science, Palacký University Olomouc,
specialization: Optics and optoelectronics
(graduated with honours / distinctions)
Awards, fellowships and visiting professorships:
2005: Alexander von Humboldt Fellowship (Max Planck Institute for Science
of Light in Erlangen, Germany)
2006: Alexander von Humboldt Return Fellowship (Faculty of Science,
Palacký University Olomouc, Czech Republic)
2007: Special Recognition of the Czech Science Foundation
2010: Visiting Professorship (ENS Paris-Cachan, France)
2011: Prize of the President of the Czech Science Foundation
Other scientific recognition and nomination:
2006-2014: papers selected for the Dean Prize of Faculty of Science, Palacký
University Olomouc
2008: paper in Nature Physics about the distillation of entanglement selected in
the Annual report as an important result of the Faculty of Science, Palacký
University Olomouc
2013: results about noiseless quantum amplifier, electro-optical control of light
and quantum cryptography reported as key results in a brochure published on
the 60th anniversary of the Faculty of Science, Palacký University Olomouc
2013: Nomination for the Werner von Siemens Prize (the best result of basic
research)
2015: paper in Phys. Rev. A and in Nature Physics about the noiseless
amplification selected among the Excellent Scientific Results of the Czech
Republic
Foreign scientific stays (week and more, long stays highlighted):
2015 (May, 1 week) University of Vienna, Austria, prof. C. Brukner, prof. M.
Aspelmeyer
2014 (May, 2 weeks) Imperial College London, UK, prof. M.S. Kim
2014 (April, 1 week) Imperial College London, UK, prof. M.S. Kim
2014 (January, 1 week) Max-Planck Institute for the Science of Light, prof. G.
Leuchs
2013 (November, 1 week) Max-Planck Institute for the Science of Light, prof. G.
Leuchs
2013 (November, 2 weeks) Imperial College London, UK, prof. M.S. Kim
2013 (September, 4 weeks) University of Vienna, Austria, prof. C. Brukner, prof.
M. Aspelmeyer
2013 (July, 2 weeks) Danish Technical University, Lyngby, Denmark, prof. U.L.
Andersen
2013 (May, 1 week) Imperial College London, UK, prof. M.S. Kim
2013 (May, 2 weeks) University of Tokyo, Japan, prof. A. Furusawa
2012 (October, 3 weeks) Imperial College London, UK, prof. M.S. Kim
2012 (July, 1 week) University of Innsbruck, Austria, prof. G. Weihs
2012 (June, 1 week) Imperial College London, UK, prof. M.S. Kim
2012 (September, 4 weeks) University of Vienna, Austria, prof. C. Brukner
2012 (February, 1 week) Max-Planck Institute for the Science of Light, prof. G.
Leuchs
2012 (1 week) Danish Technical University, Lyngby, Denmark, prof. U.L. Andersen
2012 (March, 1 week) University of Tokyo, Japan, prof. A. Furusawa
2011 (June-July, 4 weeks) Max-Planck Institute for the Science of Light, prof.
Gerd Leuchs
2010 (June, 4 weeks) Max-Planck Institute for the Science of Light, prof. Gerd
Leuchs
2010 (March, 2 weeks) University of Tokyo, prof. Furusawa
2009 (June, 4 weeks) Max-Planck Institute for the Science of Light, prof. Gerd
Leuchs
2008 (July- August, 8 weeks) Danish Technical University, Lyngby, Denmark,
prof. U.L. Andersen
2007 (November-December, 8 weeks), Max-Planck Institute for the Science of
Light, prof. Gerd Leuchs
2007 (March-June, 16 weeks), Max-Planck Institute for the Science of Light,
prof. Gerd Leuchs
2006 (January-June, 24 weeks) Max-Planck Institute for the Science of Light,
prof. Gerd Leuchs
2006 (1week) Danish Technical University, Lyngby, Denmark, prof. U.L. Andersen
2006 (1week) Queens University, Belfast, UK, prof. M. Kim
2006 (1week) Sapienza University of Rome, prof. F. DeMartini
2006 (1week) Max-Planck Institute for the Science of Light, prof. Gerd Leuchs
Key international experimental collaborations:
Danish Technical University, Lyngby (prof. Ulrik L. Andersen, 4 joint papers)
Max-Planck Institute for the Science of Light (prof. Gerd Leuchs, 10 joint papers)
Sapienza University of Rome (prof. F. de Martini, dr. Fabio Sciarrino, 6 joint
papers)
University of Tokio (prof. Akira Furusawa, 10 joint papers)
University of Innsbruck (prof. Gregor Weihs, 2 joint papers)
University Pierre and Marie Curie, Laboratoire Kastler Brossel (prof. Julien
Laurat, 1 joint paper)
Research projects (since 2005):
Principal investigator, running projects:
2013-2015: EU FP7 Ideas „Bright Squeezed Vacuum and its applications“
(BRISQ2), principal investigator at Palacký University
Principal co-investigator, running projects:
2014-2018: the Centre of Excellence of the Czech Science Foundation „Centre
of Excellence for Classical and Quantum Interactions in Nanoworld“, joint
project with ISI CAS, Brno (prof. Pavel Zemánek); principal investigator at
Palacký University
Collaborator, running projects:
2013-2015: Czech-German project 13-27533J, DFG and the Czech Science
Foundation, "Free-space optical quantum communication with continuous
variables" (principal investigator: dr. V. Usenko)
2013-2015: GA13-20319S, the Czech Science Foundation, "Quantum optical
information processing driven by weak quantum measurements" (principal
investigator: doc. J. Fiurášek)
Principal investigator, finished projects:
2012-2014: the Czech Science Foundation GA205/12/0577, "Reliable highly
nonlinear optical quantum information processing", evaluation: excellent
2010-2011: the Czech-Japanese project, the Czech Ministry of Education
ME10156, "Measurement induced quantum information processing with
continuous variables" (investigator: R. Filip)
2008-2010: the Czech Science Foundation 202/08/0224, "Electro-optical
control of quantum noise of light" (investigator: R. Filip), evaluation:
excellent
2007-2010: the Czech-German project, the Czech Science Foundation and
DFG 202/07/J040, "Quantum communication with continuous variables
through noisy channels" (investigator: R. Filip), evaluation: excellent
2003-2006: Postdoc project, the Czech Science Foundation P202/03/D239,
"Reduction of decoherence in quantum communication and information
processing" (investigator: R. Filip), evaluation: excellent
Collaborator, finished projects:
2012-2014: P205/12/0694, the Czech Science Foundation, "Complex quantum
correlations and its applications" (principal investigator: dr. L. Mišta)
2013-2014: the Czech-Japanese project LH13248, JSPS and the Czech
Ministry of Education, "Detection of quantum non-Gaussian features of light"
(principal investigator: dr. P. Marek)
2008-2011: EU FET-IST FP7 project “Computing with Mesoscopic Photonic
and Atomic States” (FP7-212008), coordinator: prof. N. Cerf
2004-2008: EU FET-IST FP6 project „Development of a Global Network for
Secure Communication based on Quantum Cryptography“ (IST-2003-506813),
coordinator: Christian Monyk
2004-2007: EU FET-IST FP6 project „Continuous Variable Quantum
Information with Atoms and Light“ (FP6-511004), coordinator: prof. N. Cerf
2000-2003: EU IST FP5 project „Quantum information with continuous
variables“ (IST-1999-13071), coordinator: prof. G. Leuchs
2006-2010: Centre of Modern Optics of the Czech Ministry of Education
(LC06007), Palacký University, principal investigator: doc. J. Fiurášek
2005-2011: Research Centre „Measurement and Information in Optics“ of the
Czech Ministry of Education (MSM6198959213), Palacký University,
principal investigator: prof. Z. Hradil
COST project OC P11.003 of the Czech Ministry of Education being part of
the ESF project COST P11, principal investigator: doc. J. Peřina
2000-2004: Research Centre for Optics of the Czech Ministry of Education
(LN00A015), Palacký University, principal investigator: prof. J. Peřina
Selected papers with short annotations (for quantitative details see following
report from Web of Science):
1. R. Filip, Overlap and entanglement witness measurements, Phys. Rev. A
65, 062320 (2002), 58 citations: I proposed strongly nonlinear quantum
measurement of overlap, coherence and quantum correlations of two light
beams or microwave fields with arbitrary complexity. For the first time, this
allowed to interferometrically measure the features of quantum states when
quantum tomography is too complex. First proof-of-principle experiment was
done in Olomouc in 2002, in collaboration with the Joint Laboratory of Optics.
These nonlinear measurements attracted a lot of the ongoing attention of the
quantum information community and it was used to propose and test many
other nonlinear measurement strategies.
2. R. Filip, P. Marek and U.L. Andersen, Measurement-induced continuousvariable interactions, Phys. Rev. A 71, 042308 (2005), 77 citations:
I proposed a method of achieving high-fidelity nonlinear continuous-variable
interactions induced by homodyne measurement on travelling light beams. It
fully exploits squeezed state of light as a useful quantum resource. This
feasible method opened the way to many experiments in quantum optics. For
the first time, it allows implementing nonlinear continuous-variable operations
with travelling quantum states of light, including the squeezing of a single
photon, quantum non-demolition interaction, quantum amplification, nonlocal
quantum operations or dynamical interactions. So far, it is the only feasible
method for deterministic nonlinear continuous-variable operations with light.
3. U. L. Andersen, M. Sabuncu, R. Filip, G. Leuchs, Experimental
demonstration of coherent state estimation with minimal disturbance,
Phys. Rev. Lett. 96, 020409 (2006), 26 citations and F. Sciarrino, M. Ricci,
F. De Martini, R. Filip, L. Mišta, Experimental realization of a minimal
disturbance quantum measurement, Phys. Rev. Lett. 96, 020408 (2006), 43
citations: I suggested two different methods of nondestructive quantum
measurements of single qubit and single coherent state. For the first time, both
non-destructive measurements introduce only minimal disturbance to the
measured state of light. They employed linear optics and different
measurements together with the new technique of electro-optical feedforward
control of light to reach the minimal disturbance. The proposals were
immediately experimentally tested by two different groups and the results were
published back-to-back, together with my theory. The experiments allowed to
significantly expand the methods of nondestructive quantum operations.
4. R.-F. Dong, M. Lassen, J. Heersink, Ch. Marquardt, R. Filip, G. Leuchs
and U.L. Andersen, Experimental entanglement distillation of mesoscopic
quantum states, Nature Physics 4, 919 (2008), 86 citations: I proposed a
method of measurement-induced recovery and enhancement of quantum
entanglement for continuous-variable states of light suitable for free-space
quantum communication through a turbulent atmosphere. It is the first work
which surpassed previous strict limits in the propagation of the entangled
states of continuous-variables. The proposal was combined with proof-ofprinciple experimental test at the Max-Planck Institute for Science of Light in
Erlangen. This opened the way towards quantum key distribution in the real
turbulent atmosphere, which is the subject of a current research of our group.
5. P. Marek and R. Filip, Coherent-state phase concentration by quantum
probabilistic amplification, Phys. Rev. A 81, 022302 (2010), 47 citations.
Together with my postdoc (P. Marek), we proposed two feasible schemes of
noiseless quantum amplification for coherent states of light. Based on this
proposal, we predicted a conditional phase concentration beyond the existing
limits. The noiseless amplification was a long-standing problem of quantum
optics. Each of these schemes used very different quantum resources: thermal
noise of light and single photon states of light. The scheme with thermal light
was immediately tested and the experiment with an extended theory was
published in M.A. Usuga, Ch.R. Müller, Ch. Wittmann, P. Marek, R. Filip,
Ch. Marquardt, G. Leuchs and U.L. Andersen, Noise-powered
probabilistic concentration of phase information, Nature Physics 6, 767
(2010), 63 citations. The scheme with single photon resources was also later
experimentally verified and published in A. Zavatta, J. Fiurášek and M.
Bellini, A high-fidelity noiseless amplifier for quantum light states, Nature
Photonics 5, 52–60 (2011). The noiseless quantum amplification attracted a lot
of scientific interest of our community and stimulated many proposals and
following experiments.
6. L.S. Madsen, V.C. Usenko, M. Lassen, R. Filip and U.L. Andersen,
Continuous variable key distribution with modulated entangled states,
Nature Comm. 3, 1083 (2012), 38 citations: Together with my postdoc (V.C.
Usenko), we proposed a feasible quantum key distribution based on the
squeezed states of light. The aim was to surpass limitation of quantum
cryptography with coherent states of light. For the first time, realistic quantum
squeezing of light was optimally exploited to substantially improve security of
optical communication. Our theory was immediately experimentally tested at
the Danish Technical University in Lyngby. Theoretical and experimental
outcomes were published together. This result finally connects squeezed light
and other methods of quantum optics with communication technology and
allow further progress in both fields.
7. M. Ježek, I. Straka, M. Mičuda, M. Dušek, J. Fiurášek, and R. Filip,
Experimental Test of the Quantum Non-Gaussian Character of a
Heralded Single-Photon State, Phys. Rev. Lett. 107, 213602 (2011); 24
citations. We experimentally verified novel nonclassical feature of light -quantum non-Gaussianity, which says that nonclassical aspects cannot be
explained by a mixture of any Gaussian quantum states of light. Surprisingly,
this quantum non-Gaussianity can appear in the states with positive Wigner
function, for which we can have very good hidden-variable model. This higher
nonclassical feature is therefore sufficiently robust against the optical loss,
therefore it can be considered as a useful resource for quantum
communication. We followed theoretical criterion which I suggested in the
previous theoretical work R. Filip and L. Mišta, Jr., Detecting Quantum
States with a Positive Wigner Function beyond Mixtures of Gaussian
States, Phys. Rev. Lett. 106, 200401 (2011); 21 citations.
Report from Web of Science and 20 most cited papers (16.11.2015)
Quantification of papers in impacted journals:
Journal
Nature Physics, IF=20,603
Nature Commun., IF=10,742
Scientific Reports, IF=5,078
Phys. Rev. Lett., IF=7,728
New J. of Physics, IF=3,673
Optics Express, IF=3,525
Phys. Rev. A, IF=2,991
J. Optics B., IF=1,81
chapters and review papers
others impacted journals
In PhD Thesis
0
0
0
0
0
0
1
6
0
3
In Habilation Thesis
0
0
0
4
0
0
11
1
0
3
Authorship
A) Single author
B) First author (beyond A)
C) Single author of theory in experimental papers (beyond A,B)
D) Senior author of papers with students and postdocs (beyond A,B,C)
Others
After Habilation
2
1
3
12
3
3
59
0
2
0
Total
2
1
3
16
3
3
71
7
2
6
Publications
19
17
23
37
16
List of main publications in impacted journals ( * denote papers included in PhD
Thesis, ** denote papers included in Habilation Thesis):
1. I. Straka, M. Miková, M. Mičuda, M. Dušek, M. Ježek, R. Filip, Conditional
cooling limit for a quantum channel going through an incoherent environment,
Scientific Reports 5, 16721 (2015).
2. R. Filip and A.A. Rakhubovsky, Transfer of non-Gaussian quantum states of
mechanical oscillator to light, Phys. Rev. A 92, 053804 (2015).
3. K. Park, P. Marek, and R. Filip, All-optical simulations of nonclassical noiseinduced effects in quantum optomechanics, Phys. Rev. A 92, 033813 (2015).
4. V. Kupčík and R. Filip, Continuous-variable entanglement mediated by a thermal
oscilátor, Phys. Rev. A 92, 022346 (2015).
5. M. Mičuda, I. Straka, M. Miková, M. Dušek, M. Ježek, J. Fiurášek, and R. Filip,
Experimental test of robust quantum detection and restoration of a qubit, Phys.
Rev. A 92, 012324 (2015).
6. M. Mičuda, R. Stárek, I. Straka, M. Miková, M. Dušek, M. Ježek, R. Filip, and J.
Fiurášek, Quantum controlled-Z gate for weakly interacting qubits, Phys. Rev. A
92, 022341 (2015).
7. A.A. Rakhubovsky and R. Filip, Robust entanglement with a thermal mechanical
oscilátor, Phys. Rev. A 91, 062317 (2015).
8. K. Park, P. Marek, and R. Filip, Conditional superpositions of Gaussian operations
on different modes of light, Phys. Rev. A 91, 033814 (2015).
9. K. Huang, H. Le Jeannic, J. Ruaudel, V. B. Verma, M. D. Shaw, F. Marsili,
S. W. Nam, E Wu, H. Zeng, Y.-C. Jeong, R. Filip, O. Morin, and J. Laurat,
Optical Synthesis of Large-Amplitude Squeezed Coherent-State Superpositions
with Minimal Resources, Phys. Rev. Lett. 115, 023602 (2015).
10. K. Roszak, R. Filip, and T. Novotný, Decoherence control by quantum
decoherence itself, Sci. Rep. 5, 9796 (2015).
11. R. Filip and P. Klapka, Purely lossy and robust quantum interfaces between light
and matter, Optics Express 22, 30697 (2014).
12. V.C. Usenko, L. Ruppert, and R. Filip, Entanglement-based continuous-variable
quantum key distribution with multimode states and detectors, Phys. Rev. A 90,
062326 (2014).
13. R. Filip and P. Marek, Thermally induced creation of quantum coherence, Phys.
Rev. A 90, 063820 (2014).
14. L. Ruppert, V.C. Usenko, and R. Filip, Long-distance continuous-variable
quantum key distribution with efficient channel estimation, Phys. Rev. A 90,
062310 (2014).
15. K. Miyata, H. Ogawa, P. Marek, R. Filip, H. Yonezawa, J. Yoshikawa, and A.
Furusawa, Experimental realization of a dynamic squeezing gate, Phys. Rev. A 90,
060302R (2014).
16. M. Fuwa, S. Toba, S. Takeda, P. Marek, L. Mišta, Jr., R. Filip, P. van Loock, J.
Yoshikawa, and A. Furusawa, Phys. Rev. Lett. 113, 223602 (2014).
17. I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M.
Mičuda, G.S. Solomon, G. Weihs, M. Ježek, and R. Filip, Phys. Rev. Lett. 113,
223603 (2014).
18. R. Filip and P. Zapletal, Squeezed-state generation from single-photon sources,
Phys. Rev. A 90, 043854 (2014).
19. S. Yokoyama, R. Ukai, J. Yoshikawa, P. Marek, R. Filip, and A. Furusawa,
Nonlocal quantum gate on quantum continuous variables with minimal resources,
Phys. Rev. A 90, 012311 (2014).
20. K. Park, P. Marek and R. Filip, Nonlinear potential of quantum oscillator induced
by single photons, Phys. Rev. A 90, 013804 (2014).
21. Y. Miwa, J. Yoshikawa, N. Iwata, M. Endo, P. Marek, R. Filip, P. van Loock, and
A. Furusawa, Exploring a new regime for processinf optical qubits: squeezing and
unsqueezing single photons, Phys. Rev. Lett. 113, 013601 (2014).
22. A. Predojevic, M. Ježek, T. Huber, J. Harishankar, T. Kauten, G.S. Solomon, R.
Filip, G. Weihs, Efficiency vs. multi-photon contribution tests for quantum dots,
Optics Express 22, 4789 (2014).
23. L. Lachman and R. Filip, Robustness of quantum nonclassicality and nonGaussianity of single photon states in attenuating channel, Phys. Rev. A 88,
063841 (2013).
24. R. Filip, Distillation of quantum squeezing, Phys. Rev. A 88, 063837 (2013).
25. M. Yukawa, K. Miyata, H. Yonezawa, P. Marek, R. Filip and A. Furusawa,
Emulating quantum cubic nonlinearity, Phys. Rev. A 88, 053816 (2013).
26. M. Lassen, A. Berni, L.S. Madsen, R. Filip and U.L. Andersen, Gaussian error
correction of quantum states in a correlated noisy channel, Phys. Rev. Lett. 111,
180502 (2013).
27. M. Yukawa, K. Miyata, T. Mizuta, H. Yoneyawa, P. Marek, R. Filip, A. Furusawa,
Generating superposition up-to three photons for continus variable information
processing, 21, 5529 (2013).
28. M. Gavenda, L. Čelechovská, M. Dušek and R. Filip, Quantum noise eater for
single photon qubit, New J. Phys. 15, 083050 (2013).
29. R. Filip and L. Lachman, Hierarchy of feasible nonclassicality criteria for sources
of photons, Phys. Rev. A 88, 043827 (2013).
30. R. Filip and V. Kupčík, Robust Gaussian entanglement with a macroscopic
oscillator at thermal equilibrium, Phys. Rev. A 87, 062323 (2013).
31. M. Míková, H. Fikerová, I. Straka, M. Mičuda, M. Ježek, M. Dušek and R. Filip,
Carrying qubits with particles whose noninformational degrees of freedom, Phys.
Rev. A 87, 042327 (2013).
32. R. Filip, Gaussian quantum adaptation of non-Gaussian states for a lossy channel,
Phys. Rev. A 87, 042308 (2013).
33. L.S. Madsen, V.C. Usenko, M. Lassen, R. Filip and U.L. Andersen, Continuous
variable key distribution with modulated entangled states, Nature Comm. 3, 1083
(2012).
34. V.C. Usenko, B. Heim, Ch. Peuntinger, Ch. Wittmann, Ch. Marquardt, G. Leuchs
and R. Filip, New Journal of Physics 14, 093048 (2012).
35. E. Nagali, S. Feliceti, P.-L. Assis, V. D'Ambrosio, R. Filip and F. Sciarrino,
Testing sequential quantum measurements: how can maximal knowledge be
extracted?, Scientific Reports 2, 443 (2012).
36. Ch. R. Müller, Ch. Wittmann, P. Marek, R. Filip, Ch. Marquardt, G. Leuchs and
U.L. Andersen, Probabilistic cloning of coherent states without a phase reference,
Phys. Rev. A 86, 010305 (2012).
37. V.C. Usenko and R. Filip, Squeezed-state quantum key distribution upon imperfect
reconciliation, New J. Phys. 13 113007 (2011).
38. M. Ježek, I. Straka, M. Mičuda, M. Dušek, J. Fiurášek, and R. Filip, Experimental
Test of the Quantum Non-Gaussian Character of a Heralded Single-Photon State,
Phys. Rev. Lett. 107, 213602 (2011).
39. P. Marek, R. Filip, and A. Furusawa, Deterministic implementation of weak
quantum cubic nonlinearity, Phys. Rev. A 84, 053802 (2011).
40. R. Filip and L. Mišta, Jr., Detecting Quantum States with a Positive Wigner
Function beyond Mixtures of Gaussian States, Phys. Rev. Lett. 106, 200401
(2011).
41. J. Yoshikawa, Y. Miwa, R. Filip, and A. Furusawa, Demonstration of a reversible
phase-insensitive optical amplifier, Phys. Rev. A 83, 052307 (2011).
42. M. Gavenda, L. Čelechovská, J. Soubusta, M. Dušek, and R. Filip, Visibility
bound caused by a distinguishable noise particle, Phys. Rev. A 83, 042320 (2011).
43. R. Filip, Coherent versus incoherent sequential quantum measurements, Phys. Rev.
A 83, 032311 (2011).
44. M.A. Usuga, Ch.R. Müller, Ch. Wittmann, P. Marek, R. Filip, Ch. Marquardt, G.
Leuchs and U.L. Andersen, Noise-powered probabilistic concentration of phase
information, Nature Physics 6, 767 (2010).
45. Y. Miwa, R. Ukai, J. Yoshikawa, R. Filip, P. van Loock, and A. Furusawa,
Demonstration of cluster-state shaping and quantum erasure for continuous
variables, Phys. Rev. A 82, 032305 (2010).
46. M. Lassen, L.S. Madsen, M. Sabuncu, R. Filip, and U. L. Andersen, Experimental
demonstration of squeezed-state quantum averaging, Phys. Rev. A 82, 021801
(2010).
47. L. Mišta, Jr., R. Filip, and A. Furusawa, Continuous-variable teleportation of a
negative Wigner function, Phys. Rev. A 82, 012322 (2010).
48. R. Dong, M. Lassen, J. Heersink, Ch. Marquardt, R. Filip, G. Leuchs, and U. L.
Andersen, Continuous-variable entanglement distillation of non-Gaussian mixed
states, Phys. Rev. A 82, 012312 (2010).
49. P. Marek and R. Filip, Noise-resilient quantum interface based on quantum
nondemolition interactions, Phys. Rev. A 81, 042325 (2010).
50. R. Filip, Squeezing restoration by a noisy probe from a classically correlated
environment, Phys. Rev. A 81, 032330 (2010).
51. V.C. Usenko and R. Filip, Feasibility of continuous-variable quantum key
distribution with noisy coherent states, Phys. Rev. A 81, 022318 (2010).
52. M. Gavenda, R. Filip, E. Nagali, F. Sciarrino, and F. De Martini, Complete
analysis of measurement-induced entanglement localization on a three-photon
system, Phys. Rev. A 81, 022313 (2010).
53. P. Marek and R. Filip, Coherent-state phase concentration by quantum
probabilistic amplification, Phys. Rev. A 81, 022302 (2010).
54. M. Sabuncu, R. Filip, G. Leuchs and U.L. Andersen, Environment-assisted
quantum-information correction for continuous variables, Phys. Rev. A 81, 012325
(2010).
55. R. Filip, Quantum interface to a noisy system through a single kind of arbitrary
Gaussian coupling with limited interaction strength, Phys. Rev. A 80, 022304
(2009).
56. F. Sciarrino, E. Nagali, F. De Martini, M. Gavenda, and R. Filip, Entanglement
localization after coupling to an incoherent noisy system, Phys. Rev. A 79, 060304
(2009).
57. D. Menzies and R. Filip, Gaussian-optimized preparation of non-Gaussian pure
states, Phys. Rev. A 79, 012313 (2009).
58. R.-F. Dong, M. Lassen, J. Heersink, Ch. Marquardt, R. Filip, G. Leuchs and U.L.
Andersen, Experimental entanglement distillation of mesoscopic quantum states,
Nature Physics 4, 919 (2008).
59. M. Gavenda and R. Filip, Quantum adaptation of noisy channels, Phys. Rev. A 78,
052322 (2008).
60. C. Wittmann, D. Elser, U. L. Andersen, R. Filip, P. Marek and G. Leuchs,
Quantum filtering of optical coherent states, Phys. Rev. A 78, 032315 (2008).
61. R. Filip, Excess-noise-free recording and uploading of nonclassical states to
continuous-variable quantum memory, Phys. Rev. A 78, 012329 (2008).
62. R. Filip, Security of coherent-state key distribution through an amplifying channel,
Phys. Rev. A 77, 032347 (2008).
63. R. Filip, Continuous-variable quantum key distribution with noisy coherent states,
Phys. Rev. A 77, 022310 (2008).
64. M. Sabuncu, L. Mišta, J. Fiurášek, R. Filip, G. Leuchs and U.L. Andersen,
Nonunity gain minimal-disturbance measurement, Phys. Rev. A 76, 032309
(2007).
65. P. Marek and R. Filip, Probabilistic purification of noisy coherent states, Quant.
Inf. Comp. 7, 609 (2007).
66. J. Fiurášek, P. Marek, R. Filip and R. Schnabel, Experimentally feasible
purification of continuous-variable entanglement, Phys. Rev. A 75, 050302 (2007).
67. J. Herec and R. Filip, Coherent-state information concentration and purification in
atomic memory, Phys. Rev. A 74, 062306 (2006).
68. R. Filip, L. Mišta, Jr., F. De Martini, M. Ricci and F. Sciarrino, Probabilistic
minimal disturbance measurement of symmetrical qubit states, Phys. Rev. A 74,
052312 (2006).
69. L. Bartušková, A. Černoch, R. Filip, J. Fiurášek, J. Soubusta, M. Dušek, Optical
implementation of the encoding of two qubits to a single qutrit, Phys. Rev. A 74,
022325 (2006).
70. O. Glockl, U. L. Andersen, R. Filip, W. P. Bowen and G. Leuchs, Squeezed-State
Purification with Linear Optics and Feedforward, Phys. Rev. Lett. 97,
053601(2006).
71. J. Heersink, Ch. Marquardt, R. Dong, R. Filip, S. Lorenz, G. Leuchs and U. L.
Andersen , Distillation of Squeezing from Non-Gaussian Quantum States, Phys.
Rev. Lett. 96, 253601 (2006).
72. U. L. Andersen, M. Sabuncu, R. Filip, G. Leuchs, Experimental demonstration of
coherent state estimation with minimal disturbance, Phys. Rev. Lett. 96, 020409
(2006).
73. F. Sciarrino, M. Ricci, F. De Martini, R. Filip, L. Mišta, Experimental realization
of a minimal disturbance quantum measurement, Phys. Rev. Lett. 96, 020408
(2006).
74. U.L. Andersen, R. Filip, J. Fiurášek, V. Josse, G. Leuchs, Experimental
purification of coherent states, Phys. Rev. A 72, 060301R (2005).
75. J. Fiurášek, R. Filip, N.J. Cerf, Highly asymmetric quantum cloning in arbitrary
dimension, Quant. Inf. Comp. 5, No.7, 583, (2005).
76. S. Iblisdir, A. Acin, N.J. Cerf, R. Filip, J. Fiurášek, N. Gisin, Multipartite
asymmetric quantum cloning, Phys. Rev. A 72, 042328 (2005).
77. L. Mišta Jr., and R. Filip, Quantum non-demolition measurement saturates fidelity
trade-off, Phys. Rev. A 72, 034307 (2005).
78. M. Ricci, F. Sciarrino, N.J. Cerf, R. Filip, J. Fiurášek and F. De Martini,
Separating the classical and quantum information via quantum cloning, Phys. Rev.
Lett. 95, 090504 (2005).
79. L. Mišta Jr., J. Fiurášek, R. Filip, Optimal partial estimation of multiple phases,
Phys. Rev. A 72, 012311 (2005).
80. R. Filip, P. Marek and U.L. Andersen, Measurement-induced continuous-variable
interactions, Phys. Rev. A 71, 042308 (2005).
81. L. Mišta Jr. and R. Filip, Improving teleportation of continuous variables by local
operations, Phys. Rev. A 71, 032342 (2005).
82. L. Mišta and R. Filip, Optimal partial deterministic teleportation of qubits, Phys.
Rev. A 71, 022319 (2005).
83. R. Filip, L. Mišta and P. Marek, Elimination of mode coupling in multimode
continuous-variable key distribution, Phys. Rev. A 71, 012323 (2005).
84. R. Filip, M. Gavenda, J. Soubusta, A. Černoch, M. Dušek, How quantum
correlations enhance prediction of complementary measurements**, Phys. Rev.
Lett. 93, 180404 (2004).
85. M. Ricci, F. De Martini, N.J. Cerf, R. Filip, J. Fiurášek and C. Macchiavello,
Experimental purification of single qubits**, Phys. Rev. Lett. 93, 170501 (2004).
86. U. L. Andersen, O. Glockl, S. Lorentz, G. Leuchs and R. Filip, Experimental
demonstration of continuous variable quantum erasing**, Phys. Rev. Lett. 93,
100403 (2004).
87. P. Marek and R. Filip, Improved storage of coherent and squeezed state in
imperfect ring cavity**, Phys. Rev. A 69, 022305 (2004).
88. R. Filip, Continuous-variable quantum nondemolishing interaction at a distance**,
Phys. Rev. A 69, 052313 (2004).
89. R. Filip, Quantum partial teleportation as optimal cloning at a distance**, Phys.
Rev. A 69, 052301 (2004).
90. R. Filip, Conditional implementation of an asymmetrical quantum cloning
machine**, Phys. Rev. A 69, 032309 (2004).
91. R. Filip, J. Fiurášek and P. Marek, Reversibility of continuous-variable quantum
cloning**, Phys. Rev. A 69, 012314 (2004).
92. R. Filip and L. Mišta, Jr., The collective squeezing operation for pure Gaussian
states with unknown parameters**, J. Opt. B: Quantum Semiclass. Opt. 5, 387
(2003).
93. R. Filip, Continuous-variable quantum erasing**, Phys. Rev. A 67, 042111 (2003).
94. M. Hendrych, M. Dušek, R. Filip and J. Fiurášek, Simple optical measurement of
the overlap and fidelity of quantum states**, Phys. Lett. A 310, 95 (2003).
95. J. Fiurášek, L. Mišta Jr., and R. Filip, Entanglement concentration of continuousvariable quantum states**, Phys. Rev. A 67, 022304 (2003).
96. R. Filip, Screening of a qubit from the influence of a zero-temperature reservoir**,
Phys. Rev. A 67, 014308 (2003).
97. J. Fiurášek, M. Dušek and R. Filip, Programmable quantum measurement device
that approximates all projective measurements on a qubit**, Fortschr. Phys. 51,
107 (2003).
98. R. Filip, Hidden nonlocality in quantum complementarity**, Fortschr. Phys. 51,
107 (2003).
99. J. Fiurášek, M. Dušek and R. Filip, Universal measurement apparatus controlled
by quantum software**, Phys. Rev. Lett. 89, 190401 (2002).
100. R. Filip and L. Mišta, Bell-inequality violation of two mode-squeezed vacuum
state in absorbing optical fibers**, Phys. Rev. A 65, 044309 (2002).
101. R. Filip, Overlap and entanglement witness measurements**, Phys. Rev. A 65,
062320 (2002).
102. L. Mišta, R. Filip and J. Fiurášek, Continuous-variable Werner state:
Separability, nonlocality, squeezing and teleportation**, Phys. Rev. A 65, 062315
(2002).
103. R. Filip, M. Dušek, J. Fiurášek and L. Mišta, Bell-inequality violation with
thermal radiation*, Phys. Rev. A 65, 043802 (2002).
104. R. Filip, Complementarity, entanglement and quantum erasing in continuous
variable quantum nondemolition experiments, J. Opt. B: Quantum Semiclass. Opt.
4, 202 (2002).
105. R. Filip, J. Řeháček and M. Dušek, Entanglement of coherent states and
decoherence*, J. Opt. B: Quantum Semiclass. Opt. 3, 341 (2001).
106. L. Mišta and R. Filip, Non-perturbative solution of nonlinear Heisenberg
equations*, Fortsch. Phys. 49, 1047 (2001).
107. L. Mišta and R. Filip, Non-perturbative solution of nonlinear Heisenberg
equations*, J. Phys. A: Math. Gen. 34, 5603 (2001).
108. R. Filip, Phase-space complementarity in QND measurement of coherent state
superposition*, J. Opt. B: Quantum Semiclass. Opt. 3, 393 (2001).
109. R. Filip, Stochastic simulations and discreteness of light*, Fortsch. Phys. 49,
949 (2001).
110. R. Filip, Stochastic simulations: continuous approximation of quantum noise*,
J. Opt. B: Quantum Semiclass. Opt. 3, 16 (2001).
111. R. Filip and J. Peřina, Amplification of Schrodinger-cat states:
distinguishability and interference*, J. Opt. B: Quantum Semiclass. Opt. 3, 26
(2001).
112. R. Filip, Amplification of Schrodinger-cat state in a degenerate optical
parametric amplifier*, J. Opt. B: Quantum Semiclass. Opt. 3 S1 (2001).
Chapters in books and invited reviews:
1) Jaromír Fiurášek, Ladislav Mišta, and Radim Filip, DISTILLATION OF
CONTINUOUS-VARIABLE ENTANGLEMENT, in book “Quantum
Information with continuous variables of atoms and light”, pages 141-159,
Eds.: Cerf, Leuchs, Polzik, Imperial College Press, 2007
2) U.L. Andersen and R. Filip, QUANTUM FEED-FORWARD CONTROL OF
LIGHT, in Progress in Optics 53, 365-414, edited by E. Wolf, Elsevier Ltd.,
2009.
Other papers (for public):
P. Marek and R. Filip, Nelaserový zesilovač světla? , Československý časopis pro
fyziku 60, 192 (2010), zvaný příspěvek do speciálního čísla “Lasery a jejich využití ve
vědě a technice”
Invited/contributed talks and posters at international conferences and workshops
(since 2005)
Invited talks:
1) 17th Central European Workshop on Quantum Optics, 6-11 June, 2010, St.
Andrews, UK
2) The Central European Workshop on Quantum Optics (CEWQO), 30 May-3
June, 2011, Madrid, Spain
3) International Laser Physics Workshop (LPHYS'11), 11-15 July, 2011,
Sarajevo, Bosna and Hercegovina
4) Frontiers of Quantum and Mesoscopic Thermodynamics (FQMT11) 25-30
July, 2011, Praha, Czech Republic
5) The International Meeting on Quantum Foundations and Quantum Information
2011, QFQI 2011, 16-17 November, 2011, Seoul, Korea
6) Continuous Variable Quantum Information Processing Workshop 2012
(CVQIP'12), 27-30 April, 2012, Frederiksdal, near Copenhagen, Denmark
7) Quantum 2012, VI workshop on Advances in Foundations of Quantum
Mechanics and Quantum Information with atoms and photons, 20-26 May,
2012, Torino, Italy
8) Central European Workshop on Quantum Optics, 2-6 July 2012, Sinaia,
Romania
9) Workshop of Max Planck Institute For Science of Light, 7-13 October, 2012,
Ringberg Castle, Germany
10) Workshop on Continuous-Variable Quantum Information Processing
CVQIP’2013, 30 January – 1 February, 2013, Paris, France
11) Central European Workshop on Quantum Optics, 16-20 June, 2013,
Stockholm, Sweden
12) International Conference on Squeezed States and Uncertainty Relations
(ICSSUR), 24-28 June, 2013, Nuremberg, Germany
13) Frontiers of Quantum and Mesoscopic Thermodynamics, 29 July - 3 August,
2013, Prague, Czech Republic
14) Workshop “Macroscopic quantum coherence”, 30-31 March, 2014, Lyngby,
Denmark
15) Conference Advances in Foundations of Quantum Mechanics and Quantum
Information with atoms and photons, 25-31 May, 2014, Torino, Italy
16) Workshop of Max Planck Institute For Science of Light, 20-25 July, 2014,
Ringberg, Germany
17) XIX Polish-Slovak-Czech Optical Conference on Wave and Quantum Aspects
of Contemporary Optics, 8-12 September, 2014, Wojanow Palace, Poland
18) Workshop on Macroscopic Quantum Coherence, 1-3 June, 2015, St. Andrews,
UK
19) 14th International Conference on Squeezed States and Uncertainty Relations,
29 June - 03 July, 2015, Gdańsk, Poland
20) 22nd Central European Workshop on Quantum Optics, 6-10 July, 2015,
Warsaw, Poland
21) Frontiers of Quantum and Mesoscopic Thermodynamics, 27 July - 1 August,
2015, Prague, Czech Republic
Contributed talks:
1) ICO Topical Meeting on Optoinformatics/Information Photonics, 4-7
September, 2006, St. Petersburg, Russia
2) Advances in Foundations of Quantum Mechanics and Quantum Information
with atoms and photons, 19-23 May, 2008 - Turin, Italy
3) Workshop on modern trends in quantum optics and quantum information,
May 1-4, 2008, Prague, Czech Republic
4) 16th Central-European Workshop on Quantum Optics 2009 (CEWQO 2009),
23–27 May, 2009, Turku, Finland
5) 18th International Laser Physics Workshop, 13–17 July, 2009, Barcelona,
Spain
6) International Conference on Quantum Communication and Quantum
Networking (From Satellite to Nanoscale), 26–30 October, 2009, Vico
Equense, Italy
7) Advances in Foundations of Quantum Mechanics and Quantum Information
with atoms and photons, 23-29 May, 2010, Torino, Italy
8) XIII International Conference on Quantum Optics and Quantum Information,
28 May–1 June, 2010, Kyiv, Ukraine
9) Quantum Coherence and Decoherence, 7 – 17 September, 2010, Benasque,
Spain
Posters:
1) Quantum Physics of Nature & 6th European QIPC Workshop, 22-26 May,
2005, Vienna, Austria
2) The E.U. - U.S. Workshop on Quantum Information and Coherence, 8-9
December, 2005, Munich, Germany
3) 9th International Conference on Squeezed States and Uncertainty Relations, 26 May, 2005, Besançon, France
4) ESF Exploratory Workshop on Long-distance Quantum Communication
Networks with Atoms and Light, 9-12 April, 2005, Prague, Czech Republic
5) 5th workshop on Continuous-Variable Quantum Information Processing, 1922 May, 2006, Copenhagen, Denmark.
6) Quantum communication, measurement and computation conference
(QCMC), 28 November - 3 December, 2006, Tsukuba, Japan
7) Gordon Research Conference on Quantum Information Science, 7-12 May,
2006, Lucca (Barga), Italy
8) 6th Workshop on Continuous variable information processing with atoms and
light, 13-16 April, 2007, St. Andrews, Scotland, U.K.
9) Solvay workshop on Bits, Quanta, and Complex Systems, 30 April - 3 May
2008, Brussels, Belgium
Seminars at universities and academic institutions
Danish Technical University, Lyngby (prof. Ulrik L. Andersen)
Friedrich-Alexander-Universität Erlangen-Nürnberg (prof. Maria Chehkova)
Imperial College London (prof. Myungshik Kim)
Max-Planck Institute for Science of Light (prof. Gerd Leuchs)
Masarykova Universita, Brno (prof. Tomáš Tyc)
Karlova Universita, Praha (prof. Karel Velický)
Queens University, Belfast (prof. Mauro Paternostro)
Sapienza University of Rome (prof. Francesco DeMartini)
Slezská univerzita v Opavě (prof. Zdeněk Stuchlík)
University of Tokio (prof. Akira Furusawa)
Technická Universita, Vysoká škola báňská, Ostrava (prof. Vladimír Vašinek)
University Pierre et Marie Curie, Paris (prof. Julien Laurat)
University of Vienna (prof. Časlav Brukner)
University of York (prof. Stefano Pirandola)
Ústav přístrojové techniky AV ČR, Brno (prof. Pavel Zemánek)
Teaching at the Faculty of Science, Palacký University (according to STAG):
(in English)
Lectures in main course of the Master Study: Laser Physics (since 2007), Quantum
Optics (since 2012), Quantum Oscillators (since 2008), Quantum Communication and
Information Processing I, II, III (since 2007)
(in Czech)
Garant a přednášející: Základy fyziky laserů (předmět A, 8 let od LS 2007/2008),
Kvantová optika (předmět A, 4 roky od ZS 2012/2013), Vybrané kapitoly z fyziky
oscilátorů (předmět B, 7 let od ZS 2008/2009), Kvantová komunikace a zpracování
informace I,II,III (předmět B,C, 7 let od ZS 2007/2008 do LS 2013/2014)
Realizované a běžící přednášky na PřF UP (výpis ze STAGu):
2007/2008 ZS: OPT/KK3 Kvantová komunikace a zpracování informace III
(předmět C), 2+1 hodin týdně, 1 student
2007/2008 LS: OPT/IZL Základy fyziky laserů (předmět A), 2+1 hodin
týdně, 4 studenti
2008/2009 ZS: OPT/FL Vybrané kapitoly z fyziky laserů (předmět B), 3+1
hodin týdně, 4 studenti
týdně, 4 studenti
2009/2010 ZS: OPT/KK1 Kvantová komunikace a zpracování informace I
2009/2010 LS: OPT/KK2 Kvantová komunikace a zpracování informace II
(předmět C), 2+1 hodin týdně, 2 studenti
týdně, 3 studenti
týdně, 6 studentů
(předmět C), 2+1 hodin, 2 studenti
(předmět C), 2+1 hodin týdně, 7 studentů
2012/2013 ZS: OPT/QS2A Kvantová optika (předmět B), 2+1 hodin týdně, 4
studenti
týdně, 4 studenti
2013/2014 ZS: OPT / QS2A Kvantová optika (předmět A), 2+1 hodin
2013/2014 ZS: OPT / FL Vybrané kapitoly z fyziky oscilátorů (předmět B)
3+1 hodin týdně, 2 studenti
2014/2015 ZS: OPT / QS2A Kvantová optika (předmět A), 2+1 hodin
2014/2015 ZS: OPT / FL Vybrané kapitoly z fyziky oscilátorů (předmět B)
3+1 hodin týdně, 3 studenti
2015/2016 ZS: OPT / QS2A Kvantová optika (předmět A), 2+1 hodin týdně,
3 studenti
Supervision of PhD, Diploma and Bachelor Theses at the Faculty of Science,
Palacký University
Running:
6 PhD Thesis:
Mgr. I. Derkach: Robustness of continuous-variable quantum key distribution
(will be finished in 2017)
Mgr. Lukáš Lachman: Identification of nonclassicallity of light and matter
Nikita Vostrosablin, MSc.: Quantum optomechanics with nonclassical states of
light (will be finished in 2018)
Ing. Petr Obšil: Quantum physics of mechanical motion of trapped ions (will
be finished in 2018)
Mgr. Jan Bílek, Generation of entangled quantum multi-photon states of light
Mgr. Josef Hloušek, Detection of number of photons and their applications in
quantum technology (will be finished in 2019)
1 Diploma Thesis:
Bc. Petr Zapletal: Feasible generation of highly nonclassical states of light
(paused; now studying at the University of Erlangen)
Finished:
2 PhD Thesis:
dr. M. Gavenda (2012): Quantum Optical Methods for Communication and
Processing of Information; now my postdoc at the Department of Optics,
Palacký University; 5 joint papers
dr. P. Marek (2008): Non-classicality of quantum states: decoherence and
purification, PhD started at the Department of Optics, Palacký University and
finished at Queens University Belfast, UK; now my postdoc at the Department
of Optics, Palacký University; 2 joint papers
4 Diploma Thesis:
Mgr. V. Kupčík (2015): Quantum entanglement generation assisted by
thermal noise; 1 joint paper
Mgr. L. Lachman (2014): Robustness and non-classicality of single photon
states, now my PhD student at the Department of Optics, Palacký University;
2 joint papers.
Mgr. P. Marek (2005): (in Czech) Kvantová provázanost a reverze kvantových
procesu, now my postdoc at the Department of Optics, Palacký University; 3
joint papers
Mgr. M. Gavenda (2004): (in Czech) Vliv dekoherence na kvantovou
nelokalitu a komplementaritu, now my postdoc at the Department of Optics,
Palacký University; 1 joint paper
4 Bachelor Thesis:
Bc. Petr Zapletal (2014): Recycling of Fock states to squeezed states (Dean’s
Prize for Bachelor Thesis in Physics, 2014), now my Master student, 1 joint
paper
Bc. Petr Klapka (2014): Universal quantum interfaces with inefficient
interaction; 1 joint paper
Bc. Lukáš Lachman (2012): New identification of nonclassical character of
single-photon states, now my PhD student, 1 joint paper
Bc. Vojtěch Kupčík (2012): Quantum entanglement of light and mechanical
oscillator; 1 joint paper
Supervised post-docs (alphabetically):
Miroslav Gavenda, Ph.D. (quantum optics, 2012-)
Petr Marek, Ph.D. (quantum optics, 2008-)
Ladislav Mišta, Ph.D. (quantum information, 2006-2010)
Michal Kolář, Ph.D. (quantum thermodynamics, 2014-)
Mikolaj Lasota, Ph.D. (quantum communication, 2014-)
Kimin Park, Ph.D. (quantum optics, POSTUP I project, 2012-)
Andrey Rakhubovskiy, Ph.D. (quantum optomechanics, 2013-)
László Ruppert, Ph.D. (quantum communication, 2013-)
Lukáš Slodička, Ph.D. (atomic physics, 2014-)
Vladyslav Usenko, Ph.D. (quantum communication, 2009-)
(In Czech) Členství v komisích PřF UP Olomouc:
Člen vědecko-pedagogické rady oboru Fyzika na PřF UP od roku 2005 do roku
2014
Člen rady doktorského studijního programu Optika a Optoelektronika na PřF
UP od roku 2014
Člen státnicových komisí oboru Optika a Optoelektronika na PřF UP od roku
2008
Člen rady doktorského studijního programu Informatika na PřF UP od roku
2007
Člen komise ustanovené pro příjímací řízení pro Optiku a Optoelektroniku od
roku 2013
Oponent nebo člen komise obhajob doktorských prací na PřF UP Olomouc:
dr. Karel Lemr, Jr. (2013)
dr. Jiří Svozilík (2013)
ing. Dalibor Javůrek (2014)
Openent magisterských prací na PřF UP Olomouc:
Mgr. Ivan Derkach (2013)
Mgr. Ondřej Černotík (2013)
Mgr. Josef Hloušek (2015)
Mgr. Jan Bílek (2015)
Oponent nebo člen komise obhajob doktorských prací na:
PřF Masarykova Universita, Brno, dr. Martin Šarbot (2012)
FJFI ČVUT, Praha, dr. V. Potoček (2013)
Referee of scientific journals:
Science
Nature Photonics
Scientific Reports
Physical Review Letters
Physical Review A
Physical Review X
Optics Express
Entropy
Referee of foreign grant applications:
Netherlands Organisation for Scientific Research
FET OPEN EU FP7 programme
Referee and examiner of foreign PhD Thesis:
2015: Dr. Hugo Kerdoncuff, Squeezing-enhanced feedback cooling
of a microresonator (Technical University of Denmark, Lyngby)
2015: Dr. Carlo Ottaviani, Unconditional Security of Continuous-Variable
Quantum Cryptography (University of York, UK)
2014: Dr. Nathan Walk, Continuous Variable Quantum Communication
(University of Queensland, Brisbane, Australia)
2012: Dr. Anders Tipsmark, Generation of optical coherent state
superpositions for quantum information processing, (Technical University of
Denmark, Lyngby)
2008: Dr. Jiri Janousek, Investigation of non-classical light and its application
in ultrasensitive measurements, (Technical University of Denmark, Lyngby)
Organization of international conferences and workshops:
ESF Exploratory Workshop on Long-distance Quantum Communication
Networks with Atoms and Light, Prague, Czech Republic, April 9-12, 2005
(17 invited speakers)
1st Workshop Photons Beyond Qubits, Olomouc, Czech Republic, April 23-25,
2012 (7 invited speakers)
2nd Workshop Photons Beyond Qubits, Olomouc, Czech Republic, April 8-10,
3rd Workshop Photons Beyond Qubits, Olomouc, Czech Republic, April 14-17,
4th Workshop Photons Beyond Qubits, Olomouc, Czech Republic, March 1618, 2015 (8 invited speakers)
Organization of international summer schools:
Summer School on Quantum Physics and Quantum Information, Olomouc,
Czech Republic, July 16-20, 2012 (8 invited tutors)
Winter School on Quantum Physics and Quantum Information, Olomouc,
Czech Republic, January 27-30, 2014 (7 invited tutors)
Other academic activities:
organization of regular seminars on the Department of Optics (2006-2014)
coordinator of Erasmus+ exchange programme with FAU Erlangen (2014now, Petr Zapletal, Robert Stárek)
Head of committee for the Dean’s Prize of the Faculty of Science for students
(Physics, 2015)
regular collaboration with UP Journal, 2007-2015, 12 contributions
annual participation in IGA projects, coordinator: prof. Miloslav Dušek, (2010now)
Scientific results presented in public media:
2007: Fyzik Radim Filip získá ocenění za vědeckou práci, Olomoucký deník,
18.6.2007.
2007: Nejbezpečnější šifru zajistí přírodní zákony, Český rozhlas, Radio Praha,
18.8.2007, http://www.radio.cz/cz/rubrika/kaleidoskop/panoramanejbezpecnejsi-sifru-zajisti-prirodni-zakony.
2007: Ceny předsedy Grantové agentury ČR 2007, Vesmír 86, 406 (2007).
2011: Bravurní vědecké projekty ocenila Grantová agentura, ČT Zprávy,
13.9.2011
2011: Olomoucký vědec bude oceněn, Právo, 14.6.2011.
2011: Olomoucký kvantový fyzik získá vědecké ocenění. Český Rozhlas
Olomouc, 14.7.2011, http://www.rozhlas.cz/olomouc/zpravy/_zprava/907391
2012: Olomoučtí optici mají na kontě významný objev. Olomoucký deník,
18.2.2012, str.2
2014: V Japonsku stlačili foton. Díky Olomouckým vědcům. Olomoucký deník,
14.7.2014, str. 3
2015: Univerzita Palackého potvrdila svou výzkumnou excelenci. Parlamentní
listy, 11.2.2015
Supplementary Documents (in Czech):
1. Magisterský diplom
2. Osvědčení o státní magisterské zkoušce
3. Doktorský diplom
4. Vysvědčení o státní magisterské zkoušce
5. Docentský diplom
6. Jmenovací dekret docenta
7. Diplom Zvláštní uznání Předsedy Grantové agentury České republiky
8. Průvodní dopis ke Zvláštnímu uznání Předsedy Grantové agentury České republiky
9. Průvodní dopis k udělení Humboldtova stipendia v Německu (německý originál)
10. Průvodní dopis k udělení Humboldtova stipendia v Německu (anglický překlad)
11. Diplom stipendisty Humboltovy nadace
12. Průvodní dopis k udělení Humboldtova stipendia pro vracející se vědce
13. Diplom Ceny Předsedy Grantové agentury České republiky
14. Průvodní dopis k Ceně Předsedy Grantové agentury České Republiky
15. Jmenovací dopis k Visiting Professorship

Podklady k zahájení řízení ke jmenování profesorem v oboru

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