Academic report of Physics Department for the duration 2005-2011
Transcription
Academic report of Physics Department for the duration 2005-2011
Physics Department Indian Institute of Technology Delhi Physics@IITD Academic Report 2005-2011 Physics Department Indian Institute of Technology Delhi, Hauz khas New Delhi 110 016 INDIA Ph: +91(11)-2659 1331 FAX: +91(11)-2658 1114 Email: [email protected] web: http://physics.iitd.ac.in/ Indian Institute of Technology Delhi is one of the fifteen Institutes of Technology created as centers of excellence for training, research and development in science, engineering and technology in India. Established as College of Engineering in 1961, the institute was later declared an Institution of National Importance under the “Institutes of Technology (Amendment) Act, 1963” and was renamed “Indian Institute of Technology Delhi”. It was then accorded the status of a deemed university with powers to decide its own academic policy, to conduct its own examinations, and to award its own degrees. HRH Prince Philip, the Duke of Edinburgh, laid the foundation stone of the Institute on January 27, 1959. The academic activities of the Institute started on August 16, 1961 with the arrival of first batch of students on campus and the formal inauguration of the teaching activity was done by Prof. Humayun Kabir, the then Union Minister for Scientific Research and Cultural Affairs on August 17, 1961. The main academic complex of the Institute was opened by Dr. Zakir Hussain, the then President of India on March 2, 1968. The Institute celebrated its silver Jubilee during 1985-86 and the Silver Jubilee Convocation was addressed by Shri Rajiv Gandhi, the then Prime Minister on December 19, 1985. The Institute has made a notable mark in higher technical education and research. It has been ranked very high among national and international institutions of higher learning. The Institute is celebrating its Golden Jubilee Year during 2010-2011. The Golden Jubilee Year was inaugurated by the Hon’ble President, Smt. Pritibha Devisingh Patil on August 16, 2010. Physics Department A Profile (2005-2011) Indian Institute of Technology Delhi Hauz khas, New Delhi 110 016 INDIA Ph: +91(11)-2659 1331 FAX: +91(11)-2658 1114 Email: [email protected] web: http://physics.iitd.ac.in/ Contents Welcome Note ...................................................................................................... 1 Research Facilities.. ............................................................................................... 2 Optics & Photonics.............................................................................................................................. 3 Material Science & Condensed Matter Physics ................................................................................. 3 Theory and Computational Physics..................................................................................................... 4 Plasma Physics.................................................................................................................................... 5 Faculty Profile.......................................................................................................................................... 7 Research Activities.............................................................................................. 14 Awards, Honours and Recognitions....................................................................... 23 Sponsored Research Projects.. ............................................................................... 27 International Research Collaborators..................................................................... 34 Invited Talks at International & National Conferences and ..................................... 38 Institutions Abroad Books, publications and Patents............................................................................ 51 1 Welcome note from the Head of the Department The Department of Physics was one of the very first few departments at IIT Delhi, which was established in 1961, and has earned the reputation of being one of the very popular physics departments in the country and is well known abroad. Legacy of our department’s distinctive strength lies in its pursuit for interdisciplinary research – both theoretical and experimental, which would fall within the category of more towards applied physics though we do have few faculty experts, who pursue pure physics. Ours is one of the large academic departments at the Institute. The department offers several academic programmes at the Masters’ levels and a B.Tech. Programme. These are M.Sc. Physics, M. Tech. in Applied Optics, M. Tech. in Solid State Materials, interdisciplinary M. Tech. (jointly with the Electrical Engineering Department) in Optoelectronics and Optical Communication, and B. Tech. in Engineering Physics. Our current Ph.D. student strength is over 140; at the just concluded annual convocation of the institute in August 2011, 23 students from our department have been awarded Ph.D. degree. At this time we have 38 serving faculty members in the department and 22 technical and support staff. Our faculty, Ph.D. students and research project staff carry out fundamental and advanced research on contemporary topics in science disciplines like material and condensed matter physics, optics and photonics, plasma physics, and theory and computational physics. Our faculty is involved with emerging and much talked about topics like nano science and technology, laser induced shape and size manipulation of nanoparticles, surface nanostructuring by pulsed laser interference lithography, semiconductor nanowires, spintronics, quantum condensed matter physics, non-equilibrium statistical mechanics, density functional theory for band structure, magnetic materials, multiferroics, Heusler alloys, nanophotonics, microstructured optical fibers, photonic crystals, plasmonics, optical fibers, integrated optics, guided wave optics-based quantum information and encryption, attosecond optics, optical phase singularity, biometrics, hadrons in hot and dense matter and so on. Active research on such contemporary topics helps in frequent updating of our syllabi and also in offering of elective course modules on emerging topics under the category of special topic courses. The courses are designed and taught by the faculty, who have excellent track record in the above-mentioned research topics. Major project dissertations that are offered to final year undergraduate and post graduate students allow their involvement and exposure to the ongoing advanced research in the department. Over the years, our physics faculty has earned several distinguished national and international awards/ fellowships such as SS Bhatnagar award of CSIR (India), International Commission of Optics’s Galileo Galilei Award, MRSI medal, OSA The Optical Society (USA) Fellowship, distinguished foreign membership of Royal Norwegian Academy of Science and Letters (Norway), fellowships of the national academies in India namely, Indian National Science Academy (New Delhi), National Academy of Science India (Allahabad), Indian Academy of Science (Bengaluru), and Indian National Academy of Engineers (New Delhi), UGC national awards and so on. Our faculty also receives honors as conference chair/ co-chair, technical session chair at major international conferences, plenary and invited speakers at national/international conferences, members of editorial advisory boards of international journals, chairs/members of major committees/initiatives of the Government of India on thrust areas of research from time to time. In the last 6 years, the department has been awarded more than Rs. 520 million worth of sponsored research projects by various government and international agencies. Several members of our faculty are deeply involved in international network of collaborative research and in recent years have attracted substantial funding from government and reputed research organizations including corporate world from the western countries. Our department is well-equipped with excellent laboratory and computational infrastructures and also manages several advanced analytical instruments as central facilities required in contemporary research. In order to fuel the future of our bright students through quality training and education, our faculty continues to strive to achieve greater heights in contemporary research.This helps in ensuring that our department becomes an even more inspiring, welcoming, and motivating work place for attracting both the brightest students and outstanding new faculty. Head, Physics Department 2 Research in physics department Research facilities: Our research infrastructure is excellent in terms of faculty expertise, high-quality and sophisticated instruments, several of which are installed in the department as central facilities, and many are being continuously upgraded. The existing research facilities for material and condensed matter physics are XPS, SEM, STM, AFM, TEM, HR-TEM, MPMS, thin-film and powder XRD, PVD, plasma and photo-CVD, IBD, RF & DC sputtering, furnaces etc. Sophisticated optics and photonics facilities are tunable, pulsed and CW high and low-power lasers. holographic recording, fused and side-polished fiber couplers and components thereof, doped fiber amplifiers, optical spectrum analysers, wavelength meter, optical fiber splicers, optical time domain reflectometer, Raman, UV-VIS spectrometers, monochromators, High resolution transmission electron microscope, Field emission scanning electron microscope with focussed ion beam, and Scanning probe microscope. Physics department is also an integral part of the Institute’s upcoming major “Nano Research Facility”, sponsored by Ministry of Communication and Information Technology, Government of India. Industrial and R&D collaborations: Physics Department has had collaborative research for various periods with many leading and wellknown private sector industries and government laboratories of repute from India and abroad such as MoserBaer India Ltd (Noida), Optiwave Photonics Pvt. Ltd (Hyderabad), Tejas Networks Pvt Ltd (Bangalore), DRDO laboratories of the Defense Ministry (Government of India), CSIR (India) laboratories, All India Institute of Medical Science (AIIMS, New Delhi), ORC of University of Southampton (UK), British Telecom Research Center (UK), National Institute of Standards and Technology (USA), University of Nice and Limoges (France), Heriot-Watt University (UK), City University London (UK), Lockheed Martin Corporation (USA), Renka Corporation (Peabody, MA, USA), Department of Air-force (USA),and Naval Research Laboratory (Washington, USA). Some of these collaborations are still continuing. Books, publications and patents: Several of our faculty occupy the editorial boards of many well-known international research journals. They have also authored several books and monographs, and large number of chapters in books. Our state-of-the art research results have been published in refereed journals of repute in the respective research fields. During the period 2005 – to date (August 2011) summary of our publication records are Books: 15 Book chapters: 19 Research Publications: >925 Patents: 9 Research contributions made by our faculty have been internationally and nationally well recognized through plenary and invited talks at major international and national conferences held in India and abroad. Our department is also deeply involved with organization of major international and national conferences, workshops, and short-term courses for academia and industries. Details are available at the end of the booklet. Research Profile: The department offers excellent facilities and scopes for conducting pure research and R&D in several areas of contemporary and emerging fields as can be seen from the following: 3 OPTICS & PHOTONICS • Guided wave optics and devices: Methods for beam propagation, Photonic bandgap optical fibers and waveguides, plasmonics fiber optic sensors and components, light localization in disordered waveguide lattice, nonlinear fiber and integrated optical waveguides, all-fiber component and devices, Erbium doped fiber amplifiers, Raman fiber amplifiers and semiconductor optical amplifiers, design and modeling of fiber and integrated optical waveguides, in-fiber gratings, allfiber components like fused fiber couplers and side-polished fiber half couplers, application-specific specialty optical fibers, nonlinear fiber optics, fiber amplifiers for optical networks and their use in measurement of photon statistics, femtosecond laser written waveguide characterization, optical parametric generation/ oscillation in PPLN crystals and waveguides, Guided wave quantum optics. • Photonic microstructure and optical processing: High density holographic data search, image reconstruction, Compresive imaging, Medical imaging, 3D object and pattern recognition architectures, optical data security and image encryption system, high resolution digital holography and digital holographic microscope, holographic solar concentrator architectures, 3D Interferometry for photonic structure fabrication, and metamaterials. • Nanophotonics: Fabrication of ordered and disordered semiconductor/ metal nanostructures for optical and electro-optical multi-functionalities, photonic heterostructures, fabrication and study of 2D and 3D nano-scale organic-inorganic hybrid structures, silicon photonics, and modeling of subwavelength apertures and waveguides. • Biometrics and liquid crystal display: Information security through bio-hashing and biometrics, liquid crystal-based V-shaped switch for the development of gray-scale displays, bent core liquid crystals for potential electro-optic devices. • Optical phase singularity: Tight and loose focusing of optical beams with phase singularity, effect of Seidal aberrations on focusing of singular beams, generation and detection methods of phase singular beams, and generation of vortex lattices and spiral phases. • Laser processing and spectroscopy: Synthesis of functionalised metal nanoparticles and metal semiconductor nanocomposites in the form of core-shell structures by pulsed laser ablation, plasmonic coupling of metal nanoparticles with light, laser-induced shape and size manipulation of nanoparticles and intermediate phase formation by nano-soldering, plasmonic coupling of light with thin film of silicon, surface nanostructuring by pulsed laser interference lithography for next generation thin film photovoltaic applications, Raman spectroscopy, ion implantation, laser ablation and annealing, laser-induced etching, photoluminescence and non-linear optical fringes, Plasma CVD. (Faculty associated: S. Chopra, Sankalpa Ghosh, B. D. Gupta, Joby Joseph, Kedar Khare, Ajit Kumar, Arun Kumar, B. P. Pal, G. Vijaya Prakash, D. Ranganathan, P. Senthilkumaran, Anurag Sharma, M. R. Shenoy, A. K. Shukla, Kehar Singh, Aloka Sinha, R. K. Soni, K. Thyagarajan, R. K. Varshney) MATERIAL SCIENCE & CONDENSED MATTER PHYSICS • Nanostructured materials and devices: Synthesis of size selected and pair nanoparticles with monosize distributions, rare earth nanoparticle-hydrogen interaction for swichable mirror and hydrogenation applications, in-situ and real time investigations of hydrogenation in Pd nanoparticle based sensors, resistive switching machanism in single nanorod structures, nanoscale investigations of anisotropic conduction in delafossite oxide thin films for bipolar conductivity and transparent applications, nanorod pillar structures for solar cell applications, nano mechanics, glancing angle deposition, metal oxide nanostrucure synthesis and optical properties, hydrogen storage materials, nanofluidics, and wetting properties of nanostructures, wide bandgap semiconductors and devices, 4 semiconductor nanowires: growth, characterization and devices, ion implantation/irradiation in semiconductors, direct wafer bonding and novel engineered substrates, nanoelectronics, atomic layer deposition, organic semiconductors. • Novel Magnetic Multifunctional Materials: Multi functional magnetic materials with superior actuation and sensing are being studied. Some examples of these are (i) Magnetic Shape Memory Alloys, (ii) Multiferroic materials with magnetoelectric coupling, (iii) Multiferroic materials with ferroelasticity and ferroelectricic properties, (iv) Magnetic high k dielectric materials. All these materials are studied in both bulk, thin-film and nanopowder forms. • Spintronics: Magnetoresistive Tunnel Junctions (MTJ) for ultrahigh sensitive magnetic field sensors and next generation Magnetic Random Access Memories (MRAMs), nano-patterned MTJs for processing and storage, functionality on a single chip, Transparent Ferromagnetic Semiconducting (FMS) oxides for semiconductor spintronics, R&D on fabrication of these structures through in-situ control of material, as well as its thickness down to atomic resolution and submicron lithography for precise definition of the junction area (1X1 µm2 and below) in high vacuum (HV) and ultrahigh vacuum (UHV) conditions through RF, pulsed DC and ion beam assisted ion beam sputtering techniques; growth and characterisation of epitaxial half-metallic (100% spin polarized) ferromagnetic thin films, e.g., Fe3O4, CrO2. • Surface-interface characterization and electronic structure of technologically relevant systems: Semiconductor-insulator surfaces and interfaces, multilayer coatings for high-density optical storage discs, functional oxides and magnetically switchable molecules. • Nanofuncional oxides and nanocomposite superconductors: Investigating role of defects on optical, and electrical properties of nanostructured Zinc oxides- its composites and its correlation with strain for its application in hybrid junctions, composites and solar cells; nano composite superconductors for enhanced flux pinning and critical current and investigating superconductivity in nanowires, study of conduction and magnetic fluctuations in oxides, composites and superconductors. • Carbon nanotubes, graphine, carbon nanostructures for field emission display: Growth of vertically aligned single wall and multi-wall carbon nanotubes and measurement of their field emission characteristics theoretical and experimental studies on Graphene. • Phase change materials for optical data storage: Development of ternary and quaternary chalcogenides alloy thin films for optical data recording. • Experimental solid state physics: Magnetism in materials (bulk and thin films), amorphous and quasi-crystalline materials, multiferroics, Heusler alloys, superconducting oxides and other oxides. • Microwave processing of materials: Microwave processes, crystalline, nanocrystalline, amorphous phases and new compounds. (Faculty associated: V. Banerjee, M. C. Bhatnagar, R. Chatterjee, S. Chaudhary, Sankalpa Ghosh, Santanu Ghosh, H. C. Gupta, S. C. Kashyap, Neeraj Khare, Vikram Kumar, B. R. Mehta, D. K. Pandya, G. Vijaya Prakash, G. B. Reddy, A. K. Shukla, J. P. Singh, R. Singh, R. K. Soni, P. Srivastava, V. D. Vankar) Theory and computational Physics • Optical physics: Nonlinear attosecond optics, Quantum optics. • Nuclear and particle physics: Hadrons in hot and dense matter and its relation to heavy ion collision experiments, color superconductivity and ultra cold atoms, nuclear astrophysics. • Non-equilibrium statistical mechanics: Mass transport models, novel optimization technique for complex spin systems, nonequilibrium properties of magnetic nanoparticle suspension. • Thermal and electrical properties of inorganic complexes: Thermal and Electrical Properties of 5 Solids and Liquids, Molecular Dynamics of Low Dimensional Solids, Microwave Integrated Circuits. • Quantum condensed matter: Quantum Hall effect transport properties of graphene layers, Bose Einstein condensation of ultra cold atoms, Superfluidity, Vortices and Vortex Lattics, Atom photon entanglement using ultra cold atoms and quantum information processing, Density Functional Theory (DFT) for band structure, thermal properties, etc. (Faculty associated: V. Banerjee, S.Chopra, Sankalpa Ghosh, H. C. Gupta, Joby Joseph, Kedar Khan, Ajit Kumar, Arun Kumar, Amruta Mishra, D. Ranganathan, P. Senthilkumaran, Anurag Sharma, Kehar Singh, Aloka Sinha, K. Thyagarajan, R. K. Varshney) PLASMA PHYSICS • Laser-plasma interaction: Particle acceleration, THz radiation generation, weak field excitation, laser-driven double layers, harmonic generation, etc. • Fusion research: Radio-frequency heating of Tokomak, laser driven fusion, instabilities, etc. • Microwave-plasma interaction: Excitation of modes for particle acceleration, microwave-driven weak field, application to International Thermonuclear Experimental Reactor (ITER), etc. • Nonlinear waves and solitons: Propagation in space related weakly relativistic plasmas, reflection in negative ion containing plasmas, dusty plasmas, etc. • Hall thruster: Instabilities, erosion problem, thruster efficiency, etc. • Plasma sources (experiments and theory): Physics of electron cyclotron resonance and helicon wave plasmas, investigation of high power waves in such systems, wave coupling and antenna optimization, etc. • Large volume plasma systems: Development of ECR based compact plasma sources, modeling and experiments on large volume plasma systems. • Plasma diagnostics: Probes for particle diagnostics, wave diagnostics, interferometry and plasma spectroscopy. (Faculty associated: Ajit Kumar, H. K. Malik, R. D. Tarey, and V. K. Tripathi) a c a demi c progr a mmes : Students intake in numbers under different academic programmes vDoctor of Philosophy (Ph. D.) in Physics offered since 1961 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 26 21 19 60 21 2010-11 23 2011-12 23 vMaster of Science (M. Sc.) in Physics offered since 1964 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 29 31 32 33 37 2010-11 50 2011-12 51 vMaster of Technology (M. Tech.) in Applied Optics offered since 1966 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 15 12 18 14 17 23 2011-12 19 6 vMaster of Technology (M. Tech.) in Solid State Materials offered since 1966 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 14 18 19 16 15 16 2011-12 23 vMaster of Technology (M. Tech.) in Optoelectronics and Optical Communication (Interdisciplinary, jointly with Electrical Engineering Department) offered since 1980 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 2011-12 14 16 14 14 24 30 30 vBachelor of Technology (B. Tech.) in Engineering Physics offered since 2001 Intake of students 2005-06 2006-07 2007-08 2008-09 2009-10 2010-11 39 38 37 46 53 62 2011-12 65 Our B.Tech. programme in Engineering Physics, aims at training students for emerging technologies such as optoelectronics, electronic materials & devices, plasma engineering and nano-technologies. The inter-disciplinary nature of B. Tech. in Engineering Physics program at IIT Delhi is unique as it blends the science and technology of emerging fields like nano science & technology encompassing quantum techniques, low-dimensional physics, material science, thin film technology, photonics encompassing fiber & integrated optics used in modern high-speed optical communication, optical information storage, and so on. Additionally, the undergraduate students belonging to all branches of engineering are offered core courses under the ‘basic science’ category as well as elective courses under ‘open’ category. Our Masters programmes are M. Sc.( Physics), M. Tech. (Applied Optics), M. Tech. (Solid State Materials), and the unique interdisciplinary M. Tech. cum Research Programme in Optoelectronics & Optical Communication, which is jointly run by the Physics and the Electrical Engineering Departments. All the Master’s programmes are unique, in the sense they train students in applied and engineering physics, which do not conform to the domains of engineering disciplines. Each of the above programmes have well-equipped laboratories for practical training of students. A team of experienced technical and supporting staff helps the faculty in the organization of laboratory training. In addition, the students has access to various research laboratories in the Department. The Department encourages strong interaction between students and faculty. The faculty, who strives to be at the forefront of advances in their respective fields, has had exposure to state-of-the-art advanced laboratories and institutions. 7 Faculty profile Prof. D. K. Pandya Head of the Department (Sept. 2005-August 2008) Prof. B. P. Pal Head of the Department (September 2008-December 2011) Prof. H. C. gupta Head of the Department (Jan. 2012- To date) Dr. Varsha Banerjee Associate Professor Email: [email protected] Ph:#1335 Research Interests: Statistical Mechanics of Spin System, Spin Glasses, Quantum Magnets and Quantum Glasses, Surface Growth Phenomena web link : http://web.iitd.ac.in/~varsha/ Dr. Mukesh Chander Bhatnagar Associate Professor Email: [email protected] Ph:#1356 Research Interests: Electronics and Photovoltaic Solid State Gas Sensors, Surface Characterization Prof. Ratnamala Chatterjee Professor Email: [email protected] Ph:#1354 Research Interests: Experimental Solid State Physics, Magnetism in Materials (Bulk and Thin Films), Amorphous and Quasi-crystalline Materials, Multiferroics, Heusler Alloys, Superconducting Oxides and other Oxides Web link: http://web.iitd.ac.in/~rmala/ Prof. Sujeet Chaudhary Professor Email: [email protected] Ph:#1341 Research Interests: Experimental Condensed Matter Physics, Nano-Magnetism, Spintronics, Ferromagnetic Semiconductors, Half metallic thin films, Materials for Oxide Electronics, Thin film technology Web link: http://web.iitd.ac.in/~sujeetc/ 8 Prof. S. Chopra Professor (superannuated in Dec. 2010) Email: [email protected] Research Interests: Quantum Optics and Laser Spectroscopy and Quantum Information Prof. A. K. Ghatak Professor (retired as Emeritus Fellow in Nov. 2006) Email: [email protected] Research Interests: Fiber and Integrated Optics, Optics, Quantum Mechanics Dr. Sankalpa Ghosh Assistant Professor Email: [email protected] Ph:#1322 Research Interests: Bose Einstein condensate of Cold Atoms, Quantum Hall Effect, Graphene, Quantum Computation Web link: http://web.iitd.ac.in/~sankalpa/ Dr. Santanu Ghosh Associate Professor Email: [email protected] Ph:#11348 Research Interests: Experimental Condensed Matter Physics, Thin Film, Ion-Materials interaction Prof. B. D. Gupta Professor Email: [email protected] Ph:#1355 Research Interests: Fiber-optics, Applied Optics, Fiber Optic Sensors Web link: http://web.iitd.ac.in/~bdgupta/ Prof. H. C. Gupta Professor Email: [email protected] Ph:#1345 Research Interests: Thermal and Electrical Properties of Solids and Liquids, Molecular Dynamics of Low-Dimensional Solids, Microwave Integrated Circuits, Raman and Infra Red Phonons 9 Prof. Joby Joseph Professor Email: [email protected] Ph:#1336 Research Interests: Photonics, Applied Optics, Holographic Data Storage, Digital Holography, Optical data Security, Photonic Structures Prof. S. C. Kashyap Emeritus Fellow (since July 2011) Email: [email protected] Ph:#1346 Research Interests: Experimental Solid State Physics, Electronic Ceramics, Ferromagnetic and GMR Materials, Nano-Materials, Spintronics, High Temp. Superconductors, Passive Devices, Crystal Growth and Microwave Processing Web link: http://web.iitd.ac.in/~skashyap/ Dr. Kedar B Khare Assistant Professor Email: [email protected] Ph:#1362 Research Interests: Optics/Photonics, Computational Imaging, Inverse Problems, Signal Processing, Compressive Sensing. Prof. Neeraj Khare Professor Email: [email protected] Ph:#1352 Research Interests: Nano-Structure Functional Oxides, Diluted Magnetic Semiconductors, Superconductors, SQUID, Polymer Composites, Solar Cells Web link: http://web.iitd.ac.in/~nkhare/ Prof. Ajit Kumar Professor Email: [email protected] Ph: #1330 Research Interests: Nonlinear Fibre Optics, Few-Cycle Laser Pulses, Nano-Magnetics Prof. Arun Kumar Professor Email: [email protected] Ph: # 1361 Research Interests: Electromagnetic Wave Propagation through Optical Fibers and Integrated Optical Wave-guides, Fibre Optic Components and Devices, Sub-wavelength Metallic Apertures and Plasmonic Waveguides Web link http://web.iitd.ac.in/~akumar/ 10 Prof. Vikram Kumar Professor Email: [email protected] Ph:# 6296 Research Interests: Organic semiconductors, Smart Materials, MEMS technology Dr. H. K. Malik Associate Professor Email: [email protected] Ph:#1303 Research Interests: Plasma Physics Prof. B. R. Mehta Schlumberger Chair Professor Email: [email protected] Ph:#1333 Research Interests: Experimental Solid State and Low Dimensional Physics, Nano Particle-Gas Interaction, Nano-Structured Sensors, Rare Earth and Pd Composite Nanoparticle Structures, Oxide thin film and Nanorod structures for resistive memory devices, Nanostructured solar cells, Organic-inorganic interfaces, Spectroscopic Ellipsometry Web link : http://web.iitd.ac.in/~brmehta/ Dr. Amruta Mishra Associate Professor Email: [email protected] Ph:#1344 Research Interests: Superconductivity in Quark Matter and Ultra-cold Atoms, In-medium Hadron Properties and Observables in High Energy Accelerator Experiments Web link: http://web.iitd.ac.in/~amruta/ Prof. B. P. Pal Professor Email: [email protected] Ph:#1327 Research Interests: Telecommunication Optical Fibers and DWDM Components, Integrated Optics, Fiber-optic Sensors and Guided Wave Opto-electronics, Specialty fibers, Microstructured Optical Fibers and components, light localization in disordered waveguide lattice Web link: http://web.iitd.ac.in/~bppal/ Prof. D. K. Pandya Professor Email: [email protected] Ph:#1347 Research Interests: Experimental Solid State Physics, Thin Films, High Temperature Superconductivity, GMR Materials, III-IV Nitrides, Nano-Materials, Solar Energy, Spintronics, Nano-Magnetism, Data Storage, Ferromagnetic Semiconductors and Nano-Oxide-Semiconductors 11 Dr. G. Vijaya Prakash Associate Professor Email: [email protected] Ph:#1326 Research Interests: Nano-Photonics, Quantum Functional Materials, Non-linear Optics Web link: http://web.iitd.ac.in/~prakash/ http://nanophotonics.iitd.ac.in/ Dr. Dilip Ranganathan Principal Scientific Officer Email: [email protected] Ph:#1337 Research Interests: Quantum Optics, Interferometry, Laser Physics and Nonlinear Optics, Quantum Information, General Relativity Prof. G. B. Reddy Professor Email: [email protected] Ph:#1353 Research Interests: Thin Film Technology, Smart Materials and Smart Windows, Nano-Structured Films Web link : http://web.iitd.ac.in/~gbreddy/ Dr. P. Senthilkumaran Associate Professor Email: [email protected] Ph:#6007 Research Interests: Applied Optics & Holography Web link: http://web.iitd.ac.in/~psenthil/ Prof. Anurag Sharma Professor Email: [email protected] Ph:#1350 Research Interests: Fiber Optics, Integrated Optics, Gradient Index Optics, Applied Optics, Numerical Modelling of Guided Wave Optical Devices Prof. M. R. Shenoy Professor Email: : [email protected] Ph:#1334 Research Interests: Optoelectronics, Fibre and Integrated Optics, Optical Fiber Components 12 Dr. A. K. Shukla Associate Professor Email: [email protected] Ph:#1305 Research Interests: Laser, Semiconductor, Raman Spectroscopy, lonimplantation, Laser Annealing and Superconductors Dr. J. P. Singh Associate Professor Email: [email protected] Ph:#1323 Research Interests: Nano-Structure Growth, Nano-Science, Experimental Condensed Matter Web link : http://web.iitd.ac.in/~jpsingh/ Prof. Kehar Singh Professor (retired as Emeritus Fellow in June 2011) Email: [email protected] Research Interests: Photonics, Applied Optics, Holography, Optical Data Security, Nonlinear Photo-refractives, Optical Computing, Nano-Optics, Photonic Bandgap Structures, Singular Optics Dr. Rajendra Singh Assistant Professor Email: [email protected] Ph:#6495 Research Interests: Semiconductor Materials and Processing, NanoElectronics, Semiconductor Nano-Wires Semiconductor Wafer Bonding, Wide Bandgap Semiconductors and Devices Web link: http://web.iitd.ac.in/~rsingh/ Dr. Aloka Sinha Associate Professor Email: [email protected] Ph:#6003 Research Interests: Nonlinear Optics, Liquid Crystals, Optical Information Processing Biometrics Prof. R. K. Soni Professor Email: [email protected] Ph:#1304 Research Interests: Laser Processing of Materials, Raman Scattering, Photoluminescence, Semiconductor Optoelectronics 13 Prof. Pankaj Srivastava Professor Email: [email protected] Ph:#6558 Research Interests: Experimental Solid State Physics, X-ray Spectroscopy, Surface Physics Dr. R. D. Tarey Associate Professor Email: [email protected] Ph:#1338 Research Interests: Experimental Plasma Physics, Plasma Processing Prof. K. Thyagarajan Professor Email: [email protected] Ph:#1328 Research Interests: Optical Fibre Communication, Optical Fiber Amplifiers and Fiber Gratings, Nonlinear Interaction in Optical Fibers, guided wave quantum optics Web link : http://web.iitd.ac.in/~ktrajan/ Prof. V.K. Tripathi Professor Email: [email protected] Ph:#1351 Research Interests: Plasma Physics Prof. V. D. Vankar Professor Email: [email protected] Ph:#1329 Research Interests: Experimental Solid State Physics, Structure and Growth of Thin Films, Plasma Processing of Materials, Solid-Solid Interfaces Dr. R. K. Varshney Associate Professor Email: [email protected] Ph:#1357 Research Interests: Optical Fiber Communication, Integrated Optics, Nonlinear Optical Components and Devices, Fiber Optic Sensors, Photonic Bandgap Structures and Devices 14 Examples of research activities in Physics Department I V H2 H2 8 N2 NP3 N2 0 Pd Nanoparticles 0 100 200 300 20 nm Fig.1: Pd Nanoparticle based pulsed response hydrogen sensor. A cross-sectional high resolution transmission electron micrograph of Pd nanoparticle layer illustrating the mechanism for pulsed response. On going from nitrogen to hydrogen gas, the sensor responds due to changes in the electrical properties on PdH formation and about 10% expansion in the volume of the particles. A sharp pulse (sharp increase followed by a sudden decrease) in current (I) at an applied voltage (V) is observed on exposure to hydrogen gas. G Pd Agglomerates having arbitrary shape and size G DMA G UV Light device Spark Generator Spherical, monosized and monocrystalline Pd nanoparticles To Film Deposition G System 20 nm Sintering Furnace Fig. 2: Nanoparticle journey in the deposition set up. Pd agglomerates having arbitrary shape and size are transformed into spherical, monosized and monocrystalline nanoparticles as the carrier gas (G) takes Pd particles from spark generator to the thin film deposition system via UV light device, Differential mobility analyzer (DMA) and sintering furnace. Fig. 3: Research activities of Nanostech research lab 15 MOKE M-H Facility 0.00090 Moke Signal (V) 0.00085 UHV System with RHEED CoFeB(5nm)/Si(100) T=300K 0.00080 0.00075 0.00070 0.00065 0.00060 0.00055 -100 -80 -60 -40 -20 0 20 40 60 80 100 H (Oe) MH loop of a 15 nm thick CoFeB film RHEED Pattern of SrTiO3(100) crystal R (Ohm) 1200 MR = 19 % 1100 1000 -6 HRTEM of a 30 nm dia (Cu/Co) nanowire 3 6 2.8x102 Magnetization (emu/cc) Fe3O4 at 400 oc 1.5x106 R(ohms) 0 H (kOe) MR plot of a Cu/Co nanowire(MR~19%) 2.0x106 6 1.0x10 5 5.0x10 0.0 -3 115K 153.38 214.24 256.22 339.08 T(K) Verway transition in half metallic Fe3O4 film 2.5x102 FC 2.2x102 1.9x102 ZFC 1.7x102 Fe3O4(50 nm)/Si(100) H=300 Oe 1.4x102 0 50 100 150 200 250 300 Temperature (K) ` Reflectivity curve of a Cu/Co multilayers Fig. 4: SPINTRONICS group: Research tools established and salient achievements 16 Fig. 5: Enhanced SHG in ZnO nanorods (b) as compared to ZnO thin film (a); (2) I-V characteristic of ZnO/a-NPD heterojunction and inset shows its schematic picture, (3) TEM and HRTEM image of MgB2 nanorods Vortices in Supersolid phase Novel Snell’s law for Graphene electrons in inhomogenous magnetic field Fig. 6: Research highlights of Theoretical Condensed Matter Physics Fig. 7: Schematic figure of heavy ion collision experiments to create matter at high temperatures and densities and study in-medium properties of hadrons (kaons, D-mesons, vector mesons). 17 100 nm 1 nm 100 nm 1�m 60 50 angle ( deg) 40 30 20 10 0 3 50 Light Transport in photonic crystals 400 450 500 55 0 wavelength (nm) 60 0 6 50 Electron-Photon strong coupling 700 Photoluminescence mapping Fig. 8: Nanophotonics research activity Fig. 9: Laser processing and spectroscopy lab activities : Laser ablation fabrication of colloidal nanoparticles, Periodic nanostructuring of semiconductors, Plasmonics, Photoluminescence, Raman spectroscopy 18 Fig. 10: Optical phase singularity (vortex) is a point phase defect with zero amplitude and undefined phase. As the wave propagates, vortices draw lines in three dimensions that are called lines of complete darkness. These lines can form loops and knots. Vortex infested wavefronts have helical shape. Proposed Biometric System Key management of the optical image encryption system using biometrics BioHashing using optics based feature extraction method Stage: E-2 Key Link K=[C1,k1,C2, k2] Ortho-normalized Random number Generation Feature Vector Extraction Stage: E-1 Enrollment Model Link Algorithm Combined Key K=[C1,k1,C2, k2] FFT JPS FRT (k1) FRT (k2) C2 FFT Biohash code: bit vector bi�(0,1) Stage: E-3 Encryption of image Fig. 1. Schematic diagram of the encryption process for the proposed technique. �b1 � � � b2 � � � � �. � �. � � � �. � � � � �0if � ori ai < 0� � � � � �1if � ori ai > 0 � � r11……….r1m …………….. …………….. rn1…….…rnm a1 b1 a2 b2 . . Lookup Table Stored Parameter C1 Extract one of the outer patch of 2D intensity distribution taking highest peak value as the centre Normalize the Input Image and form Joint Input Image Random Number a 1 a2 … b1 b2… . . Ortho-normalization or11……..or1m …………….. …………….. orn1……..ornm Feature Vector Biohashing Binarize vector using threshold Inner Product �or11 ´ a1 + or12 ´ b1..... � � ´ + � �or21 a1 or22 ´ b1..... � � � �.................................� � �.................................� � Fig. 2 Schematic diagram for the generation of the hash code. Fig. 11: Optics based biometric encryption 19 Fig. 12: Super continuum light generation from a fabricated microstructured Bragg fiber: fiber was designed at IITD and was fabricated at Russian Academy of Science's fiber Optics Research Center (Moscow), SC light generation experiment was performed at Heriot-Watt University in Edinburgh under an ongoing UKIERI major project. Fig. 13: Light localization in ordered and disordered waveguide lattices; design and modeling of the experiment were carried out at IITD and experiment was jointly performed Heriot-Watt University in Edinburgh under an ongoing UKIERI project. 20 Quartz block Inherent gain flattened designs Index difference i) Gain flattening based on SPF technology ii) 0.02 0.015 Tapered MMOW Side-polished fiber block 0.01 0.005 100 Without SPF device With SPF device 10 -10 28 26 24 Gain (dB) 0 -30 -40 1520 1530 1540 1550 Wavelength (nm) 0 50 100 Fiber diameter position (µm) 32 30 -20 50 10 L=12m I/P=-20dBm/Ch 8 6 22 20 18 16 1530 4 2 1535 1540 1545 1550 1555 0 1560 Noise Figure (dB) Transmission (dBm) 0.000 Wavelength (nm) Fig. 14: Characteristics of gain flattened Erbium doped fiber amplifiers (EDFAs) through i) insertion of a side polished fiber (SPF)-based wavelength filter; ii) appropriate design of refractive index profile of the EDF. a) b) Fig. 15: (a) EDFA Module developed in collaboration With Optiwave Photonics, Hyderabad and Tejas Networks, Bangalore (b) Inside view of EDFA 21 Pump Laser First Stage EDFA Computer interfaced with Pump laser and first stage EDFA Input Signal Isolator a) Output Signal to OSA EDF WDM coupler b) Fig. 16: a) Experimental setup to test performance of Erbium Doped Fiber Amplifier developed at IIT Delhi in collaboration with Optiwave Photonics, Hyderabad b) Fused fiber coupler fabrication rig developed in-house. -500 -1500 Dispersion (ps/km-nm) n n1 -3500 -4500 n3 -5500 n2 a -2500 b c 1540 1550 1560 Wavelength (nm) Fig. 17: A novel design of a dispersion compensating fiber. It Is the basis for various different dispersion compensating fiber designs based on photonic crystal fibers and other applications such as delay lines etc. Fig. 18: FCC photonic structure through 3D interferometry (a) Matlab Simulation (b) Experimental diffraction pattern 22 a) c) b) Fig. 19: Holographic data storage and Image encryption: (a) Phase modulated data page (b) BER of the recovered page (c) Fractionalization of image for encryption Resistivity (10-4�cm) Resistivity (10-4�cm) Magnetics & Advanced Ceramics Laboratory (Novel Smart Magnetic Materials) 8 (a) 6 Heating Cooling 5 4 x=3 3 x=1 2 8 Publications of the Lab during 20092011 – 30 x=5 7 100 200 300 T (K) (b) some important Publications during this period- 400 x=5 7 6 5 4 x=4 3 2 x=2 100 200 300 T (K) Fig. A 400 Fig. B Fig. A shows the resistivity behaviour of Ni52+x Mn 26-x Al22 (1≤x≤5). The data for the Ni57Mn 21 Al22 (x = 5) sample imply that the crossover from semiconducting to metallic behaviour of the resistivity could be brought about by magnetic ordering rather than by the martensitic transformation. Fig. B shows TEM dark and bright field images and corresponding selected area electron diffraction (SAED) patterns tilted with respect to the [100]B2 matrix zone for x = 5 sample. The martensite variants can be clearly seen corresponding to the L1 0 martensite. 1. Arti Gupta, A. Huang, S.Shannigrahi & Ratnamala Chatterjee, Appl .Phys. Lett. 98, 112901 (2011). 2. Manoj Kumar Sharma, D. Kanjilal, Pankaj Srivastava & Ratnamala Chatterjee, accepted for J. Appl .Phys. (2011). 3. Amrita Singh and Ratnamala Chatterjee, J. Appl .Phys. 109, 024105 (2011). 4. Saurabh Kumar Srivastava, Vijay Kumar Srivastava, Anupam Joshi, Pawel Kamasa, Lajos Károly Varga, V. V. Khovaylo & Ratnamala Chatterjee, Appl. Phys. Lett. 97, 122505 (2010) 5. Vijay Kumar Srivastava, _ Saurabh Kumar Srivastava, Ratnamala Chatterjee, Govind Gupta, S. M. Shivprasad, & A. K. Nigam, Appl. Phys. Lett.95,114101 (2009) Large Strain (~0.80%) in Non-lead system, a promising candidate for actuator application Fig. (a) RBS data for Ni-doped HfO2 film (sample B), and 5x1011 ions/cm 2 (sample C), 1x1012 ions/cm 2 (sample D), 5x10 12 (sample E) ions/cm 2 120 MeV Ni9+ SHI irradiated Ni doped HfO2 films. Fig. (b) and (c) show enlarge view of nickel and oxygen RBS spectra, respectively. The inset in Fig. (a) show the crosssectional TEM micrograph of 5x1012 ions/cm 2 120 MeVNi9+ SHI irradiated Ni-doped HfO2 film. Field-induced strain loops of 1-xPZST-xPMN compositions: Recoverable remnant strain (shape memory effect) Fig 20: Magnetics & Advanced Ceramics Laboratory (Novel Smart Magnetic Materials) 23 Awards, Honours and Recognitions Our department has had the privilege of having outstanding faculty right from the beginning. S S Bhatnagar award The Government of India has bestowed following former and presently serving colleagues with the most coveted award in science in India namely, the S S Bhatnagar award of CSIR for their significant contribution to science: Prof. M. S. Sodha, Prof. K. L. Chopra, Prof. A. K. Ghatak, Prof. Kehar Singh and Prof. Anurag Sharma. Padmashree National award Government of India also honoured two of our former colleagues with the prestigious Padmashree national award for their significant contributions to science and they were Prof. K. L. Chopra and Prof. M. S. Sodha. In the following we list awards, honors, and recognitions earned by our serving faculty colleagues during the period 2005-2011: Varsha Banerjee • Nominated for the Theoretical Physics Seminar Circuit for the years 2004-06. • Regular Associate, International Centre for Theoretical Physics, Trieste, Italy for the period 2003-10. Ratnamala Chatterjee • Materials Research Society of India (MRSI) medal for 2012 (announced in Oct., 2011) • Honours conferred upon (with a plaque and citation), for contribution in the field of Magnetism by Women Physicist Association, presented by Vice Chancellor of Mother Teresa Women’s University on Science Day, 2011 • Nominated Senate Member, IIIT DM since 2010 • Chairman from Indian side, Indo-Russia Workshop titled “Research on Ferromagnetic Shape Memory Alloys & related Materials: State of the art in India and Russia”, held in Moscow, October 2010 • Best poster award along with Ph.D student Anupinder Singh at National Symposium on Ferroelectrics and Dielectrics (NSFD-15), Thapar University Patiala, 06-08 Dec, 2008 • First prize in poster presentation alongwith Ph.D student Abhishek Pathak at National Seminar on Electroceramics (NSE-2007), Nov. 5-6, 2007, GVM Girls College, Sonepat Sujeet Chaudhary • MRSI Medal Award-2007 18th AGM of MRSI, NPL, New Delhi (2007) • Best Poster Award along with Kanwal Preet Bhatti, Subhash C Kashyap and D K Pandya at ICSM-2008, SideAntalya, TURKEY (2008) • Outstanding Poster along with Kanwal Preet Bhatti, Shankhmala Kundu, Subhash C. Kashyap and D. K. Pandya at MRS Fall Meeting, Boston (USA), Nov. 27-Dec.1, 2006 Ajoy Ghatak • Recipient of the 2008 SPIE Educator Award in recognition of “his unparalleled global contributions to the field of fiber optics research, and his tireless dedication to optics education worldwide and throughout the developing world in particular”. • Recipient of the DSc degree (Honoris Causa) from Burdwan University in 2007 for outstanding research contributions in Physics. • Recipient of the 2005 Indian National Science Academy Dr Biren Roy Memorial Lecture Award for outstanding research contributions in Fiber Optics. Sankalpa Ghosh • Guest Scientist for two months (mid-May to mid-July, 2009) at the Max Planck Institute for Complex Systems in Dresden, Germany. • Guest Scientist in Max Planck Institute for complex systems, Dresden, Germany ( 05/06/2011-17/07/2011). S. C. Kashyap • Member, International Programme Committee and session chair: International Conference on Superconductivity and Magnetism (ICSM-10) Antalya, April 25-30, Turkey, April 2010 24 Neeraj Khare Fellow of Institute of Physics (IOP), UK from 2005 Fellow of National Academy of Science India from 2011 Member of editorial board of International Journal ‘Superconductor Science and Technology’ (2005-2009) Member of International Steering Committee of East Asia Society of Superconductor Electronics from 2008 Chairman of ‘East Asia Symposium on Superconductor Electronics’, held in IIT Delhi in Dec. 2007 Co-chairman of the International Workshop on Advanced Materials and Technologies for Nano and Oxide Electronics, Delhi 19th-22nd Feb 2007 • Co-chairman of the International conference on Electroactive-polymer held in Goa, 19- 24 Feb 2007 • President of Material Science Section of Indian Science Congress Association for 2004-2005 • Platinum Jubilee lecture award of Material Science Section of Indian Science Congress Association in 2006 • • • • • • Vikram Kumar • • • • • • • • • • Technomentor Award from the Indian Semiconductor Association (2010) Elected Fellow of the Indian National Academy of Engineers (2009) Distinguished Service Award by ISSS (India) 2007 Chairman, Working Group on Nanotechnology, Dept. of Information Technology Chairman, Expert Group on Enabling R&D for Solar Energy, DST Member, Solar Energy Research Initiative, DST Member, R&D Project Appraisal Committee in Photovoltaic Technology, MNRE Member, R&D Sectoral Project Appraisal Committee in Photovoltaic Technology, MNRE Member, Fellowship Management Committee of National Solar Science Fellows Programme, MNRE Member, PAC on Physics, Astrophysics and Lasers for International Cooperation Programmes of the DST. H. K. Malik Erasmus Mundus Visiting Fellow by the Government of Germany (2011) DAAD Fellowship by Deutscher Akademischer Austausch Dienst (DAAD) (2007) Career Award by the All India Council of Technical Education, Government of India (2005) Editorial Board Member of The Open Plasma Physics Journal published by Bentham Science Publisher, U.S.A. • Associate Editor / Advisory Board: “Journal of Physics, Astrophysics and Physical Cosmology” published by Scientific Journals International, U.S.A. • • • • B. R. Mehta • Marie Curie International Fellowship, European Commission (2006) • Member of the Editorial Board: Journal of NanoScience and Nanotechnology (JNN), American Scientific Publishers, USA • Member of the Editorial review board of Journal of Nanoeducation • Member of the Programme Advisory Committee (PAC), Condensed Matter and Material Science, DST, 20072010 • Member of the Programme Advisory Committee (PAC), Physics, International Programmes, DST, 2009 • Member of the Expert Committee of the CSIR on Interdisciplinary Research 2008-2010 • Member of the Expert Committee of the MHRD for Centers of Excellence • EU project entitled ‘Nanoswitch’ has been chosen by the European Commission as a Success Story Project • Shlumberger Chair Professor at IIT Delhi (since 2011). Amruta Mishra • Regular Associate of the Abdus Salam International Centre for Theoretical Physics, Italy (January 2006 December 2011) • Awarded Alexander von Humboldt fellowship to visit FIAS, University of Frankfurt, Germany, during June, 2010. • Visited FIAS, University of Frankfurt with Humboldt reinvitation program during 1st to 30th June, 2005; during 21st May-20th July, 2007, and during 1st June to 30th June, 2009. B. P. Pal • Prof Y. T. Thathachari prestigious Research Award in Physical Science by Bhramara Trust Mysore (2011) 25 • UGC National Hari Om Ashram Trust Homi J. Bhabha Award in Applied Sciences for 2006 by the UGC for significant contributions to Guided Wave Optics and Optical Communication • OSI award by the Optical Society of India (OSI) for lifetime contributions to growth and education in Optics and Photonics (2011) • IETE-CEOT94 award of IETE for distinguished contribution to optoelectronics (2010) • Elected Fellow of OSA The Optical Society, USA (2010) • Director at large of the Board of Directors of OSA The Optical Society (USA) (2009-2011) • Distinguished Lecturer of IEEE- LEOS (Lasers and Electro-Optic Society), USA for (2005 – 2007); delivered talks at 14 LEOS chapters in USA, Canada, UK, Netherland, Ukraine, Russia, Singapore, and Korea on Photonic bandgap fibers and components • Traveling Lecturer of Optical Society of America (effective 2007) • Erasmus Mundus Scholar of European Community for Photonics (2007) at Heriot-Watt University, Edinburgh (UK) • Elected Distinguished Foreign Member under Natural Sciences Division’s Technology Group of the Royal Norwegian Academy of Sciences and Letters (Founded in 1760), Norway (w.e.f January 1, 2007) • Senior Foreign Scientist Associate of CNRS, France for research at Laboratoire de Physique de la Matiere Condensee, University of Nice (2007; 2010) • Member, International Council of OSA The Optical Society (USA) (2007-2009) • Member, Long Term Planning Group for publications of OSA The Optical Society (USA) (2009-2014) • Member of the Jury for International Commission of Optics Prizes (2009 - to date) • Member, Executive Council of the Optical Society of India (2004 - to date) • Member, Editorial Advisory Boards of the journals/book series: Optoelectronics Letters (China) (2005-to date) Journal of Electrical Engineering & Technology (Korea) (2006-to date) IETE Students Journal (1998-2008) Journal of the Optical Society of Korea (2009-todate) Journal of Optical Communication (Germany) (since 2011) Kiran, Journal of the Laser Society of India (since 2009 – to date) “Nature Physics Collection” of Nature Group publications, Macmillan Publishing House England (2011) Photonic Sensors (Springer) (since 2011) • • • • • • • • • Member of Working Group on Nanotechnology, Dept. of Information Technology (2003-2010) Member of Research Council, ISM, Dhanbad (2005-2009) Member of Academic Council, IUAC, Delhi (2010-todate) General Co-Chair, International Conference PHOTONICS 2008 held at New Delhi Dec. 14-17, 2008; Co-Chair, Sub-committee on Optical Fiber and Waveguide Devices at the 14th Optoelectron. Comm. Conf. (OECC’2009), Hong Kong, July 2009; Co-Chair of the Technical Program sub-committee on Optical Fiber Optic devices of Asia Communication and Photonics (ACP2010) conference, Shanghai, Dec. 10-12, 2010; Chair of International Advisory Committee and TPC for PHOTONICS’2010 held at IIT Guwahati (December 12-15, 2010); Member, Steering Comittee of the 7th International Workshop on Fiber Optics and Passive Components (WFOPC2011), Montreal, Canada. Chair of the TPC on Passive Components and Devices, of the ACP2011 held during November 16-18, 2011 at Shanghai, China. D. K. Pandya • BEST POSTER AWARD along with K Gopinadhan, Sujeet Chaudhary, Subhash C. Kashyap International Conference on Nano Science and Technology (ICONSAT 2006), Delhi, INDIA (2006) on “Optical Properties of Cobalt-Substituted Tin Oxide Nanogranular Thin Films”. Anurag Sharma • Elected Fellow of the Indian National Academy of Engineers (2009) • Vice-President, Optical Society of India (2008-2011) • Member, Sectional Committee-IV (Engineering Sciences), INSA (2009-2011). J. P. Singh • Outstanding Young faculty award by Kusuma Trust, Gibraltar Year (2008). 26 K. Singh • Life time Achievement Award (2007) 33rd Symp. Opt. Soc. of India, Tezpur, Dec. 2007 For distinguished, life time contributions to Optics Research and Education. • Golden Jubilee ‘Distinguished Service Award’ (2011) of IIT Delhi. • Technical Co-Chair, Nat’l confer. on lasers and their applications in basic and applied sciences (NCLBAS-2005), Dept. of Physics, Visva-Bharati, Santiniketan, India, Jan 10-13, 2005. R. Singh • Outstanding Young faculty award by Kusuma Trust, Gibraltar Year (2008). • Editorial Board Member of Journal of Nanoscience Letters, Simplex publishers, India. A. Sinha • BOYSCAST Fellowship, DST (2008). P. Srivastava • Guest Scientist at University of Duisburg-Essen, Germany (January-June, 2007). K. Thyagarajan • • • • • • • • • • • • • • • • • • Elected Fellow of the Optical Society of America in 2005 Elected Fellow of the Indian National Academy of Engineering in 2008 Received the “Excellence in Teaching” award in January 2011 from IIT Delhi. Chairman of the Working Group on Photonics of the Department of Information Technology, Government of India Member. Programme Advisory Committee of the Department of Science and Technology, Government of India Member, Committee to consider Fast Track Proposals for Young Scientists in the area of Physical and Mathematical Sciences (2006-2009) Chairman of Steering Committee of the project on Development of integrated optic gyro chip for fiber optic gyro, DRDO project sponsored to SAMEER, Mumbai (2009) Member of the Photonics delegation identified by the Office of the Principal Scientific Advisor to Government of India to visit Canada, 2007 Member, Project Evaluation Committee to look into commercialization of DWDM technology Project proposal by M/s United Telecom Ltd. Bangalore, Technology Development Board, DST (2004-2007) Member, Expert committee on Physical Sciences of the FIST program of the DST, 2007 Representative for India in the Commission D of the URSI commissions in the area of Photonics for the period 2003-2006, URSI Honorary Editor of IETE Journal of Research in the area of Optoelectronics, 2005 onwards Member, Sectional Committee, LITD 11 on Fiber Optics, Fibers, Cables and Devices of the Bureau of Indian Standards Chairman of the Steering Committee to steer the project on fiber Bragg gratings in operation at NIT Warangal (2006-2007) Chairman NSDL committee set up by NISCAIR for developing e-learning material Member, Expert Committee on Photonics Technology of the Department of Physics, ISM Dhanbad. Member of the Committee of the Special Assistance Programme (SAP) of the Department of Applied Optics and Photonics, University of Kolkata (2005-2006) Chairman of Committee for the SERC School (under DST) on“Optical Metrology and Diffractive Optics”Under “Lasers, Optics, Atomic & Molecular Physics” to be held at University of Calcutta, Kolkata R. K. Varshney • BEST PAPER AWARDS of OSA (USA) along with S. Ghosh and B. P. Pal, International Conference on Photonics-2008 (Delhi, Dec. 2008) & Photonics-2010 (IIT Guwahati, Dec. 2010). • “Best device oriented paper on Photonics from an Indian Laboratory” award (instituted by the Organizing Committee of PHOTONICS 2004) for the paper entitled Side-polished fiber-based tunable gain flattening filter for EDFA (A. Singh, R. K. Varshney, B. P. Pal, and B. Nagarazu), presented at the International Conference PHOTONICS’2006, Hyderabad, India (2006) 27 Sponsored Research Projects (2005 – 2011) Sl. No. Title of Project PI/ Co-PI Funding Agency Total Budget (in Lakhs) 1. Plasma behaviour at nano dimensions V.K. Tripathi DST 16.02 2. Laser Driven ion coulomb explosion of clusters and plasma channels V.K. Tripathi DST 8.32 3. Studies on laser plasma accelerator V.K. Tripathi DST 8 4. Terahertz generation radiation V.K. Tripathi DST 24.62 5. Characterization and Scaling Studies in Large Volume Plasma Produced by Multiple Compact ECR Sources A.Ganguli R.D.Tarey DST 38.68 6. Investigation of Helicon wave Plasmas Produced by Slow Wave Antennas inside Conducting Cylindrical Waveguides A.Ganguli R.D.Tarey BRNS 15.33 7. Core-shell nanostructures by laser ablation R.K. Soni DRDO 20.40 8. Technology Development project on laser induced sub-micron periodic structures R.K. Soni DST 44.00 9. Design of PPLN based Tunable Optical Parametric Oscillator M R Shenoy K. Thyagarajan IRDE Deharadun, DRDO 42.68 10. Synthesis of nanodimensional metal doped zinc and copper oxide films and their study as transparent conducting oxide Santanu Ghosh DST 8,10 11. Synthesis of oxide nanostructures and their field emission studies--development of a field emission set up Santanu Ghosh IRD, IITD 6.00 Santanu Ghosh, D. K. Avasthi (IUAC, New Delhi), F. Faupel (University of Kiel, Germany) DST-DFG Indo German project 8.89 DST 13.67 12. Formation of metallic nanostructures in organic matrix by vapor and plasma phase deposition and its modification by ion irradiation 13. Electron Transport in Graphene: Effect of Electromagnetic Potential Barriers, impurities and electron-electron interaction 14. R & D on Side-Polished Fiber based Devices R. K. Varshney B. P. Pal A. Kumar DST 16.85 15. R&D on Specialty Optical Fibers and Fiber based Components for Optical Communications B .P. Pal R. K. Varshney Indo- France Joint Prog., DST Euro 1M Research on application-specific micro structured Optical Fibers B .P. Pal A. Sharma M. R. Shenoy A. K. Ghatak R. K. Varshney UKIERI Major project, British Council Division of the British High Commission £416,000 (GBP) 16. Sankalpa Ghosh /Manish Sharma 28 17. Infrastructural technology for advanced use of photonics crystal fibers in optical communication Systems A. Sharma B. P. Pal K. Thyagarajan Arun Kumar R. K. Varshney Indo-Japan Collaborative Programme No direct funding was received as the Japanese host institute took care of faculty exchange air fare and local hospitality in Japan 18. Metal-semiconductor contacts based on GaN for device applications R. Singh DRDO 20 19. Metal-semiconductor contacts based on ZnO for device applications R. Singh DRDO 40 20. Metal-semiconductor contacts on GaN R. Singh IRD, IIT Delhi 1 21. Set up of C-V measurement facility along with probe station R. Singh Planning Unit, IIT 7.5 22. Wafer bonding and layer transfer for novel engineered substrates R. Singh Max Planck Society (MPS) 66 23. Development of Multi-layer Coatings for High Density Optical Storage Discs V.D. Vankar P. Srivastava MCIT & Moserbaer 125.5 Design and Development of an EDFA module Design and Development of mid-stage access erbium doped fiber amplifier K. Thyagarajan M.R. Shenoy K. Thyagarajan M.R. Shenoy MCIT 45 MCIT 50 26. Laser preparation and storage of nonclassical states of light and matter K. Thyagarajan M.R. Shenoy DST 10 27. Fabrication and submicron tailoring of materials for photonics applications with ultrafast lasers K. Thyagarajan, M.R. Shenoy IITD, TIFR, Manipal, IITB, IITG Govt. of India 15 28. Technical opinion on rough photochrom ophthalmic glass blanks (Consultancy project) B.P. Pal K. Singh M/s Corning SAS India 1.0 29. Investigations on optical correlator with high capacity holographic memory Joby Joseph K. Singh DRDO 43.40 30. To carry out required studies and prepare status document on Photonics Crystals and Metamaterials K. Singh Joby Joseph DRDO 9.16 31. Advising on tender for affixing security hologram on wine bottles of Excise and Prohibition department (Consultancy project) Kehar Singh Govt. of Bihar 0.59 32. Development of FPGA based Hybrid Optical Correlator Subrat Kar(EE) S. Chaudhary (EE) Joby Joseph DRDO 43 Development of holographic data storage platform Investigations on Encrypted Optical Correlator for Data Security Joby Joseph K. Singh Joby Joseph K. Singh Moserbaer 2.0 DRDO 24 24. 25. 33. 34. 29 Department of Science & Technology 35. Linear and nonlinear optical properties of semiconductor/ metal nanoparticles for optical / electronic devices A.K. Shukla(PI) V.D. Vankar(CoPI) 36. Synthesis of Aligned Nano-tubes of Carbon and Related Materials and Study of Their Electron Emission Characteristics A.K. Shukla(CoPI) V.D. Vankar(PI) Department of Information Technology 204.85 37. Optical Studies of Self – assembled quantum dots of semiconductors A.K. Shukla(PI) V.D. Vankar(CoPI) Department of Science & Technology 21.12 J.P. Singh IRD IITD 1 J.P. Singh Planning unit IITD 12 40. Development of a UHV glancing angle deposition system for growth of nanostrcutures and insitu studies of electrical, magnetic and electromechanical properties J. P. Singh DST 10 41. Ion beam softening of nanoelectromechanical actuator J. P. Singh 42. Studies on Microwave-Plasma Interaction 38. 39. Development of a UHV glancing angle deposition system Development of a UHV glancing angle deposition system for growing nanorods and nanospring structures 34 H. K. Malik Department of Airforce, AOARD, USA I.R.D, IITD 5 43. New Techniques for Energy Gain and Particle Acceleration in Waveguides by Microwaves H. K. Malik DST 4.02 44. What Does Magnetic Field Contribute to Soliton Propagation and Reflection in Plasmas H. K. Malik AICTE 10.50 45. Large Amplitude Solitary Waves and Instabilities in Magnetized Plasmas: Analytical and Numerical Investigations H. K. Malik C.S.I.R 9.77 46. Studies on Ionization Effects on Soliton Propagation in Magnetized Plasmas H. K. Malik DST 24.82 47. TMR materials and systems for very high density data storage technology and Spintronic devices MIT 117.3 48. Modernisation of Characterisation Facilities at Low temperature MHRD 20 49. Synthesis and Investigation of Ferromagnetic Semiconducting thin films for Spintronics Sujeet Chaudhary Planning unit IITD 15 50. Dynamic Light Scattering Studies of Biofunctionalized Magnetic Nanoparticles Manish Sharma Sujeet Chaudhary DBT 19.7 51. Development of Soft magnetic materials by Microwave E/H field separation S. C. Kashyap H. C. Gupta DRDO 14.82 Sujeet Chaudhary D. K. Pandya S. C. Kashyap Santanu Gosh Sujeet Chaudhary, S. C. Kashyap D. K. Pandya 12 30 52. Synthesis of Magnetic nanomaterials by a Noval Microwave Irradiation Technique S. C. Kashyap Sujeet Chaudhary D. K. Pandya MHRD 20 53. Novel magnetic nanomaterials for spintronics D. K. Pandya S. C. Kashyap Sujeet Chaudhary Indo-Swiss Joint Prog. DST 5.18 54. Nanostructured Elements for Spin Based High Density Storage Devices D. K. Pandya S. C. Kashyap Sujeet Chaudhary MIT 210.8 55. Nanostructured Ferromagnetic Semiconductors D. K. Pandya Sujeet Chaudhary S. C. Kashyap Thrust Area IITD 15 56. Superconducting Demonstrator System Development S. C. Kashyap D. K. Pandya Indo-Hungary Joint Prog. DST 5.16 57. Synthesis of Semiconductor Nanostructures D. K. Pandya S. C. Kashyap Sujeet Chaudhary MHRD 15 58. Fabrication and Photonic structures G. Vijaya Prakash IRD, IITD 1.0 59. Fabrication and characterization of silicon based Photonic structures G. Vijaya Prakash Planning Grant, IITD 5.0 60. New organic-metal Exciton-photon coupling G. Vijaya Prakash DST 10 Semiconductor Nanostructures G. Vijaya Prakash Visiting fellow, Royal Society UK ~ £3,500 Environmentally- focused low-cost nano structured devices G. Vijaya Prakash P. Srivastava UKIERI Glass waveguide technology G. Vijaya Prakash MIT, Govt. India 35 A. Sharma CSIR 19 A. Sharma ADE, DRDO 4.0 B. R. Mehta DST 216 61. 62. 63. 64. 65. 66. Investigative studies for design, modeling, fabrication and characterization of fiber Bragg gratings for sensor applications Consultancy and design facility services for Sudarshan optics Optical and Electronic Properties of Nanostructures 118 UK 67. Growth of metal nanoparticles B. R. Mehta Lockheed Martin Corporation USA 22 68. Ellipsometric studies of hydrogenation in rare earth nanoparticle layers B. R. Mehta DST 69 69. CuInO2 layers for bipolar conductivity applications B. R. Mehta DST 38 70. Pd nanoparticle based sensors B. R. Mehta BRNS 27 Nanostructured Materials: Synthesis, Simulation and Applications B. R. Mehta (Project Coordinator), with 20 more faculty DST 550 71. 31 72. Synthesis of defect free GaN nanorod structures by ARE technique B. R. Mehta L. K. Malhotra DST 6.93 73. Metal hydride nanoparticles B. R. Mehta MHRD 12 74. Structural, electronic and gas sensing properties of SnO2:Ag composite nanoparticle films B. R. Mehta L. K. Malhotra 75. Scanning tunneling microscopy studies of In2O3 nanoparticle based gas sensing structures B. R. Mehta CSIR 14 76. Research and development on optical fiber chemical sensors based on surface plasmon resonance B. D. Gupta CSIR 10 77. Surface plasmon resonance based fiber optic sensors utilizing metal Nanoparticles B. D. Gupta DST 30.22 78. Studies on indium tin oxide based optical fiber surface plasmon resonance sensors B. D. Gupta CSIR 20 79. Biometric based optical system for identification, authentication and classification Aloka Sinha DST 14.64 80. Hadron properties in hot and dense hadronic matter Amruta Mishra DST 10 81. Properties of hot and dense hadronic matter Amruta Mishra IRD, IITD 1 82. Medium modification of hadrons and their effects of experimental observables Amruta Mishra Ms. Raje Bhageerathee DST 10 83. Particle and surface growth phenomena – Analysis and characterization Varsha Banerjee P. Senthilkumaran CSIR 14.78 84. Study of Complex Spin Systems using Graph Cut Techniques Varsha Banerjee DST 20 85. Dipolar Magnets and Glasses: Study of Static and Dynamic Properties in the Classical and Quantum Regime Varsha Banerjee CSIR 6.5 86. Study of Classical and Quantum Spin Systems in Presence of Disorder Varsha Banerjee DST 2.3 87. Diffractive optical elements for optical vortices P. Senthilkumaran D. S.Mehta DST 22.47 88. Computer generated holograms for 2D display and optical testing P. Senthilkumaran CSIR 8.88 89. Development of Bio-sensors & microtechniques for analysis of PR, Aflatoxicin, Heavy metals using Magnetic Nanoparticles Ratnamala Chatterjee NAIP (World Bank) 76.64 29 32 90. Quantum Design Ever Cool MPMS XL-7 as a National Facilty Ratnamala Chatterjee Sujeet Chaudhary Neeraj Khare Manish Sharma 91. Remnant Strain measurements of Lead based Systems for SME Ratnamala Chatterjee DRDO 14.18 92. Synthesis & Characterisationof Pb-based Ferroelectric Systems for Shape memory Effect Ratnamala Chatterjee DRDO 45.2 93. Competition of Exchange interactions and Functional properties of Novel Metamagnetic Shape Memory Alloys Ratnamala Chatterjee DST-RFBR (Indo-Russia) 12.77 Influence of Electronic Structure on Adhesion & Friction of Quasicrystals Ratnamala Chatterjee (PI from IITD- A project in collaboration with BHU from Indian side) CEFIPRA 15 Ratnamala Chatterjee DST 10.5 A. K. Shukla Shyama Rath DST 10.29 A. K. Shukla S. C. Abbi DST 19.06 141 94. 95. 96. 97. Development of Ferroelectromagnetic Materials for Advance Devices Application A Raman Spectroscopic Metrology for non-invasive evaluation of silicon-germanium alloys/heterostructures for electronic / optoelectronics Raman Spectroscopy and Photoluminesence of Laser Etched Semiconductors DST- National Facility 296.74 98. Development of Mult-ilayer Coatings for High Density Optical Storage Discs V. D.Vankar Ministry of Information Technology and Communications, New Delhi 99. To establish XPS/AES/UPS Facility (FIST project) HOD, Department of Physics DST 135 $55,000 for 1st year. Extendable to 3 yrs with $137,000 100. Micro-Structured Fibers for Wavelength Translation and Supercontinuum Lasers B. P. Pal, R. K. Varshney Office of Naval Research Global, Department of Navy (USA) 101. Indo-Ireland S&T cooperation programme G.V. Prakash DST& Ireland Govt 13 Lacs 102. V-shaped switching in Ferroelectric liquid crystals Aloka Sinha DST 23.11Lakhs 103. TMR Materials and Systems for very High Density Data Storage Technology and Spintronic Devices D. K. Pandya, S. C. Kashyap and Sujeet Chaudhary MCIT, Govt of India 130 Lakhs 33 104. Plasma based THz Generation using Femtosecond Lasers H. K. Malik D.S.T.and D.A.A.D. 5.84 Lakhs 105. Innovative light extraction technology for White OLED Joby Joseph MCIT, New Delhi 146 Lakhs 106. Between Magnetic Properties and Electronic Structure of Transparent Oxide Films Pankaj Srivastava and Santanu Ghosh DST 25.80 Lakhs 107. R&D of Nano-structured Materials for Photonic Devices G. V. Prakash (PI) Pankaj Srivastava and Santanu Ghosh (Co-PI) DST 1 Crore 108. Modeling and Simulation of Carbon Nanotube (CNT) based Field Emitters V. D. Vankar and Vikram Kumar DRDO/SSPL ~1.80 109. Non-Silicon Based Technologies for Nanofabrication and Nanoscale Devices Vikram Kumar (PI) G. V. Prakash and Rajendra Singh (Co-PI) DIT 50 Crore 110. Synthesis and characterization of nano ZnO-polymer composites” sponsored by CSIR Neeraj Khare CSIR 14 111. Zinc oxide nanowire and nanostructured films for novel device applications Neeraj Khare UKIERI British Council 95 112. ZnO nanowires and nano structured films Neeraj Khare DST 26.88 113. Study of temperature dependence of electrical transport in novel materials Neeraj Khare BRNS 24.93 114. Synthesis of superconducting nanocomposite thin films and study of flux pinning mechanism” Neeraj Khare INUP/IIT Bombay 115. Study of Magnetic Noise Neeraj Khare IIT Delhi 5 116. Design of a Polarization Maintaining Fiber for Strategic use B. P. Pal, R. K. Varshney DRDO 10.00 34 International Research CollaboratoRS Sl.No. Name of collaborator Name of Institution 1. Prof. C. S. Liu University of Maryland, College Park, USA 2. Professor Joe Maclennan Liquid Crystal Material Research Center (LCMRC), Boulder Colorado 3. Prof. Walter Greiner Prof. S. Schramm Frankfurt Institute for Advanced Research (FIAS), University of Frankfurt, Germany 4. Prof. K. Yasumoto Kyushu University, Fukuoka, Japan 5. Dr. Istvan Vajda BUTE Budapest, Hungary 6. Dr. M. Wuttig RWTH Achen, Germany 7. Dr. J-Ph. Ansermet EPFL Laussane, Switzerland 8. Dr. J. Narayan NCSU Raleigh, USA 9. Dr. S. K. Sharma, Univ. Of Hawaii, USA 10. Dr. Dinesh Agrawal PSU, USA 11. Prof. Cornelia Denz University of Munster, Germany 12. Prof. Jeremy J. Baumberg NanoPhotonics Centre, University of Cambridge, UK 13. Dr. Malgosia Kaczmarek University of Southampton, UK 14. Prof. Francesco Simoni Universita’ Politecnica delle Marche Via Brecce Bianche, 60131 Ancona – Italy 15. Maurizio Ferrari Istituto di Fotonica e Nanotecnologie - Trento, Italy. 16. Prof Shigeo Kawata Utsunomiya University, Japan 17. Prof Ulrich Stroth Stuttgart University, Germany 18. Prof Karl E Lonngren University of Iowa, USA 19. Prof. N. Koratkar and Prof. K.V. Lakshmi Rensselaer Polytechnic Institute, NY, USA 20. Professor D B Ostrowsky Universite de Nice, Sophia Antipolis, France 21. Prof. Heiko Wende University of Duisburg-Essen, Germany 22. Dr. Gerard Monnom Dr. Bernard Dussardier Prof. Jean-Marc Blondy Prof. Marie Foret Prof. Bernard Jacquier University of Nice, IRCOM-CNRS, University of Limoges, LDV Montpellier, LPCML, Lyon, France 23. Prof. B.M.A. Rahman, Prof. K. Grattan, Prof. D.N. Payne, Dr. Jayanta Sahu, Prof. D. Richardson, Prof. B. Culshaw, Prof. W. Johnstone, Prof. A.K. Kar, Prof. T. Benson City University of London, University of Southampton, University of Strathclyde, Heriot Watt University, University of Nottingham, UK 24. Prof. G. P. Agrawal Institute of Optics, Univ of Rochester, USA 25. Prof. Dr. Franz Faupel University of Kiel, Germany 26. Prof. Dr. W. Moller ForsczungZentrum Dresden (FZD), Rossendorf, Germany 27. Dr. J. C. Pivin CSNSM, Paris, France 35 28. Prof. Yusuf Haider University of Dhaka, Dhaka Bangladesh 29. Prof. Hajime Asahi Institute of Scientific and Industrial Research, Osaka University, Osaka, Japan 30. Prof J. Burgger Micro Enginnering Centre, EPFL Switzerland 31. Prof FE Kruis Nano Structure and Technology, Univeristy of Dusiburg Essen, Germany. 32. Prof C.M. Bhatia Department of Electrical Engineering, National University of Singapore, Singapore. 33. Prof. J. Driscoll University of Cambridge, UK 34. Prof. Venky Venkatasan National University of Singapore, Singapore 35. Prof. Eric Akkermans Technion, Israel Institute of Technology, Haifa, Israel 36. Dr. Ziad Musslimani Florida State University, Tallahausse, Fl, USA 37. Prof. K. Machida Dr. T. Mizushima Dr. M. Takahasi Okayama University, Okayama, Japan 38. 39. Prof. Dag Winkler, Prof. Vladimir Khovaylo Department of Microtechnology and Nanoscience, National University of Science and Technology “MISiS”, Moscow, Russia Dr. Lajos K Varga Research Institute for Solid State Physics and Optics, Hungary Distinguished alumnus awards The Institute has awarded a total of 53 Distinguished Alumnus Awards so far. Out of these, nine were received by alumni of the Physics Department; thus one in every six awardees has been from our Department to date. Name and affiliation Degree Year Award Year Ph.D. 1966 1992 1. Prof. P.K. Kaw Director, Institute of Plasma Research, Ahmedabad 2. Prof. S.R. Kulkarni Professor, Astronomy, Caltech, USA Prof. G.P. Agrawal Professor, Institute of Optics, University of Rochester, USA Dr. Prabhat K Dubey Angel VC, Los Altos Hills, CA, USA M.S. 1972 1996 Ph.D. 1974 2000 Ph.D 1970 2002 Prof. Chandra S. Vikram Professor, Optical Science and Engineering University of Alabama in Huntsville, USA Ph.D. 1973 2002 6. Dr. Gobi R. Padmanabhan National Semiconductors, USA M.Tech./Ph.D. 1968/1971 2003 7. Prof. Renu Malhotra Professor, Department of Planetary Sciences, University of Arizona, USA M.S. 1983 2006 8. Mr. K. Ananth Krishnan CTO, Tata Consultancy Services, Mumbai M.Sc. 1985 2009 9. Prof. Rahul Pandit Professor, Physics Department Indian Institute of Science, Bangalore M.S. 1977 2010 3. 4. 5. 36 Heads of the department since its inception Name Period Prof. W. E. Duncanson 1961-1965 Prof. S. C. Jain 1965-1967 Prof. M. S. Sodha 1967-1970 Prof. K. L. Chopra 1970-1973 Prof. C. L. Mehta 1973-1975 Prof. A. K. Ghatak 1975-1977 Prof. P.K. C. Pillai 1977-1980 Prof. B. B. Tripathi 1980-1983 Prof. P.K. C. Pillai 1983-1986 Prof. M. S. Sodha 1986-1988 Prof. R. G. Mendiratta 1988-1991 Prof. K. P. Jain 1991-1993 Prof. O.P. Agnihotri 1993-1996 Prof. Kehar Singh 1996-1999 Prof. H. K. Sehgal 1999-2003 Prof. L. K. Malhotra 2003-2005 Prof. D. K. Pandya 2005-2008 Prof. B. P. Pal 2008-2011 Prof. H. C. Gupta 2012- Former faculty members of the department since its inception Prof. W.E. Duncunson Prof. S. C. Jain Prof. S. Lokanathan Prof. P. K. Srivastava Prof. R. K. Puri Prof. M.S. Sodha Prof. B. K. Sawhney Prof. R.G. Mendiratta Prof. O.P. Agnihotri Prof. D. P. Tewari Prof. V. Ramamurthy Prof T. C. Goel Prof. S. D. Sharma Prof. B. B. Tripathi Prof. L. M. Tewari Prof. H. K. Sehgal Prof S. C. Mathur Prof. D. K. Roy Prof. I. C. Goyal Prof. K.P. Jain Prof. K. L. Chopra Dr. A. Verma Prof. C. L. Mehta Prof. D. C. Dube Prof. L. K. Malhotra Prof. P. K. Katti Prof. P. K. C. Pillai Prof. S. K. Sharma Prof. S. C. Abbi Dr. A. K. Mukhrjee Dr. A. Banerjee Dr. N. C. Srivastava Dr. M. P. Verma Dr. G. Umesh Dr. G. L. Sharma Dr. R. Tewari Dr. M. Rao Dr. Y. Sudhakar Prof. S. S. Mathur Prof. B. Buty Dr. R. N. Singh Dr. T. V. Rao Dr. E. K. Sharma Dr. A. D. Sharma Mr N. K. Jain Dr. A. Barman Dr. M. Sharma Dr. U. Sen 37 List of Ph.D. receipants from Physics department during the period 2005-11 S No. Name of Student Entry No. 2005 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Pawan Kumar Rakesh Kumar Joshi Sonalee Chopra Bhabani Shankar Sahu Arti Agrawal Naveen Kumar Nishchal Padulla Parthi Babu Dayal Kamna Pande Tarsome Singh Sain Archana Gupta 2000RPH016 99RPH002 2000 RPH011 98 RPH013 99 RPH009 99 RPH001 99 RPH018 99 RPH006 98 RPH014 97 RPH005 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 2006 Somnath Chanda Roy Pushpendra Kumar Vidya Nand Singh Renu John I. Aruna Nutan Gupta Anuj Kumar Sharma Pawan Kumar Tiwari Sudakshina Prusty Charu Kakkar 99 RPH007 99 RPH004 99 RPH016 2000RPH012 2000 RPH014 99 RPH008 2001 RPH023 2000 RPH006 2000 RPH008 2002 RPH005 11. Naveen Kumar 2001 RPH001 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 2007 Amarendra Kumar Sarma Sanjay Kumar Mohanta Sandeep Kumar Naveen Kumar Mukesh Chandra Duggi Venkata Sridhara Rao Sonali Dasgupta Anjali Kanwal Preet Bhatti Sanjay Kumar Srivastava Seema Vinayak Manmohan Singh Sayed Mohammad Abbas 2002RPH002 2001 RPH003 2002 RPH015 2002 RPH001 2001 RPH013 2000 RPH010 2002 RPH017 2001 RPH010 2002 RPH004 2001 RPH007 2001 RPH020 2000 RPH015 2003PHZ0015 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 2008 Bibhuti Bhushan Sahu Dan Bahadur Singh Priyanka Gupta Rajan Jha Vivek Sajal Suchitra Gopinadhan K. Upendra Tripathi Neeraj Panwar Amir Ahmad Gagan Kumar Ashok Kumar Ritwick Das Vijay Kumar Srivastava 2000RPH001 2001 RPH005 2001 RPH022 2002 RPH003 2002 RPH007 2002 RPH016 2003 PHZ0002 2003 PHZ0005 2003 PHZ0014 2003 PHZ0027 2003 PHZ0032 2004 PHZ8082 2004 PHZ8084 2002 RPH013 S No. 1. Name of Student 2009 Km.Shubra Kala Entry No. 2003PHZ0009 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. Dhananjay Kumar Singh Vishwa Bandhu Pathak Ajay Kumar Mann Devinder Pal Ghai Vikas Sharma Sanjay Kumar Pandey Manoj Kumar Suneet Kumar Arora Jaswinder Kaur Gargi Agarwal Rakesh Kumar Singh Rajesh Kumar Sanit Barai Anith N. Brijesh Kumar Pawan Kumar Manika Khanuja 2005 PHZ8058 2004 PHZ8083 2002 RPH012 2003 PHZ0028 2003 PHZ0004 2001 RPH018 2001 RPH004 2001 RPH006 2005 PHZ8190 2001 RPH016 2003 PHZ0008 2004 PHZ8080 2003 PHZ0026 2001 RPH017 2003 PHZ0018 2002 RPH023 2003 PHZ0021 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 2010 Manoj Kumar Ash Bhardwaj Mandeep Singh Bhawana Joshi (nee Pandey) Sangeeta Handiya Sandeep Chhoker Anupinder Singh Debjani Bhattacharya Charu Lata Dube Anil Kumar Aria Sanju Rani Bhargav Das Manish Kumar Giriraj Nayati Pradeesh K. 2003 PHZ0025 2003 PHZ0010 2004 PHZ8079 2003 PHZ0012 2005 PHZ8044 2006 PHZ8047 2004 PHZ8076 2004 PHZ8182 2002 RPH018 2005 PHZ8062 2006 PHZ8033 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 2011 Mukesh Kumar Ms. Triranjita Srivastava Nagaraju Bezawada Sunil Vyas Saurabh mani Tripathi Ms. Rupali Nagar Bhupendra Kr. Sharma Narendra Singh Gautam Singh Animesh Kuley Brahma Nand Upadhyay Ms. Arti Gupta Rajneesh Kumar Verma Sudesh Sharma Ms. Kusum Kumari Hardeep Kumar Manish Kumar Sarb Preet Singh Ms. Geetika Bajaj Arvind Kumar Ram Swaroop Meena Manoj Kumar Sharma Ms Prerna 2005PHZ8046 2006 PHZ8040 2005 PHZ8041 2005 PHZ8048 2005 PHZ8042 2005 PHZ8191 2005 PHZ8277 2005 PHZ8066 2006 PHZ8250 2006 PHZ8046 2003 PHZ0016 2005 PHZ8060 2006 PHZ8036 2006 PHZ8038 2005 PHZ8067 2005 PHZ8052 2007 PHZ8288 2005 PHZ8199 2006 PHZ8042 2007 PHZ8064 2007 PHZ8201 2005 PHZ8054 2005 PHZ8063 1. 2. 3. 4. 2003PHZ0022 2003 PHZ0019 2004 PHZ8081 2005 PHZ8051 38 Invited Talks At International & NATIONAL Conferences and institutions Abroad Varsha Banerjee • Scattering Properties of Interfaces in Disordered Systems, An Interdisciplinary Approach to Soft-matter & Biological Physics, IACS and SINP, Kolkata, India, December 2011 • Scattering Properties of Interfaces in Disordered System, International Conference on Dynamics of Phase Transformations, JNCASR, Bangalore, India, November 2011 • Controlled Hysteresis in Small Magnetic Particles for Therapeutic Applications , Joint ICTP-KFAS Conference on Nanotechnology for Biological and Biomedical Applications (Nano-Bio-Med), ICTP, Trieste, Italy, October 2011 • Scattering Properties of Ground States in the 3-d Random-Field Ising Model, Condensed Matter and Statistical Physics Section, ICTP, Trieste, Italy, October 2011 • Mass-Transport Models with Multiple-Chipping processes, Dynamic Days 2010, Delhi, India, November 2010 • Growth Models with Mass-dependent Fragmentation, Diffusion and Aggregation, Dept. of Physics, University of Saarland, Saarbrueken, Germany, June 2010 • Conserved Mass Models with Mass-dependent Fragmentation and Aggregation, Dept. of Physics, Indian Institute of Science, Bangalore, India, April 2009 • Growth Models with Mass-dependent Fragmentation, Diffusion and Aggregation, Dynamic Days 2008, Delhi, India, November 2008 • Growth Models with Mass-dependent Fragmentation and Aggregation, Non-equilibrium phenomena in Condensed Matter, New Delhi, India, February 2008 • Models for Particle and Surface growth, Workshop on High Performance Computing, Inter University Accelerator Centre, New Delhi, India, March 2007 • Models for Nanoparticle Growth, Dynamic Days 2006, Crete, Greece, August 2006. Ratnamala Chatterjee • Preparation and characterization of ferrite-polymer composite at microwave frequencies, 50th Magnetism & Magnetic Materials Conference, San Jose, USA, 2005 • Effects of Chemical modifications on the dielectric properties of BiFeO3 –LaBaMnO3 – PbTiO3, ICMATIUMRS, Singapore, July 2005 • International conference entitled Functional Metamaterials at the Nanoscale, July 22-23, 2005, MRC, IISc, Bangalore. • ICAM (International Conference on Advanced Materials) held in Bangalore, 2007 • International Symposium on Nanostructured Materials at KMV, Jalandhar, 2009 • Ni-Mn-Al based Magnetic Shape Memory Alloys, Indo-Russia Workshop titled “Research on Ferromagnetic Shape Memory Alloys & related Materials: State of the art in India and Russia”, October 2010 • Multiferroic Materials, Series of 2 lectures, Technical University, Dresden, Germany, July 2010 • Multiferroic Solid-Solutions, International Conference on Electroce ramics(ICE-2009) is scheduled for December 14, 2009 (soon this will be displayed on website). Title – • Invited lecture “Smart Magnetic Multifunctional Materials” in the Solid-State Physics Institute, Hungarian Academy of Sciences, Dec.2008 • “Ni-Mn-Al Thin-Films- their structural & magnetic properties” in July, 2007, ICMAT, Singapore • “Multifunctionality in Ni-Mn-Ga Heusler Alloys” on 10/10/2007 at ICAM (International Conference on Advanced Materials) held in Bangalore • “Ni-Based Heusler Alloys as SMART Magnetic Sensors” on 04/10/2007 at Indo Swedish Meet on Bio-MEMS, held in Goa • Invited Speaker “Magnetic Shape Memory Alloys” in Nov., 2006 at US AOARD, Washington • Invited lecture- “Nano Multiferroics” in CEP on Nanoelectronics at SSPL, Delhi, January 2011 • MAGNETIC NANOPARTICLES IN SMART MULTIFUNCTIONAL THIN-FILMS @International Conference – cum-Workshop on Nanoscience & Nanotechnology, Ansal Institute of Technology, Gurgaon, India, Dec.17-21, 2007 • SMART MAGNETIC MULTIFUNCTIONAL MATERIALS – Invited Lecture at IUC Indore, Dec.5, 2007 • SMART MAGNETIC MULTIFUNCTIONAL MATERIALS – Talk delivered @ SSPL, Nov.2007 • “Shape Memory in Ceramics” on 05/11/07 at National Seminar on Electroceramics held in Sonipat, Haryana • Series of 2 lectures on Smart Magnetic Materials & Smart Ceramics in an SERC school held at Madurai Sep. 39 2007 • “Shape Memory Effect in Pb-Based Systems” at 14th NSFD, held at IIT KgP, Dec.2006 Sujeet Chaudhary • Ferromagnetic Semiconductors for Spintronic Applications, National Conference on Synthesis and Characterization of Smart Materials (SCSM-2009), Bareilly College, Bareilly, U.P. (INDIA), Sept. 12-14, 2009 • Transition metal doped nanocrystalline ZnO – A novel room temperature ferromagnetic semiconductor, International Conference on Superconductivity and Magnetism (ICSM-2008), SIDE-ANTALYA, Turkey, Aug 25-29, 2008 • Noble Prize in Physics – 2007: Giant Magnetoresistance Effect, Institute’s Lecture Series, IIT Delhi, Nov 14, 2007 • Spintronics-activities at Thin Films Laboratory (TFL) IIT Delhi, Department of Physics, York University, York (UK), Aug 6, 2007 • Room Temperature Ferromagnetism in the Transition Metal Substituted II-VI Semiconductors – The Materials for Spintronics MRSI-MEDAL AWARD Lecture 2006, 18th AGM of MRSI, NPL, New Delhi (INDIA), Feb 12-14, 2007. Sankalpa Ghosh • One dimensional Bose Einstein condensate in a random potential, Anderson Localization for the Non-Linear Schroedinger Equation, Lewiner Institute of Theoretical Physics, Technion, Haifa, Israel (2008) • Spinorial Dipolar Bose Einstein Condensate, International Conference on Cold Atoms, IISER Calcutta, December, 2008 • Electron Optics in Graphene in presence of Electromagnetic Barrier, International Center for Theoretical Physics (TIFR) Condenses Matter Program (2009) • Electron optics with magnetic vector potential barrier in Graphene, National Symposium on recent advances in Quantum Condensed Matter, School of Physical Sciences JNU, 2009. Santanu Ghosh • Ion beam induced shaping of nanoparticles embedded in thin film matrtix, Subtherm-2012, 25-28th October, 2011, Dresden, Germany • Synthesis of diluted and transparent ferromagnetic semiconductors by 200 KeV Ni+2 ion implantation in ZnO films and study of their physical Properties, International Conference on the Application of Accelerators in Research and Industry (CAARI-2010), Fort Worth, Texas, USA, 8-13 August’ 2010 • Magnetic metal-insulator nanogranular films, International conference SHIMEC-2010, New Delhi, 6- 9 October, 2010 • Synthesis and study of nanoscale magnetic semiconductors and magnetic metal/insulator films: Role of energetic ions, Indo-French International conference on Nanostructuring by Ion beams, Bhubaneswar, 26 Feb.-1st March, 2009 • Synthesis and study of nanoscale oxide, nitride films and magnetic semiconductors: Role of energetic ions, National Workshop on Recent Trends in Synthesis and Characterization Techniques for Multifunctional Nanomaterials, Nagpur, 22- 26 June, 2009 • Electronic sputtering and nanoscale modification of thin film surface by swift heavy ion irradiation, National Symposium in Ion Materials Interaction, Allahabad, 18th March, 2009 • Nanoscale magnetic materials for future spintronic devices, RTMD-2010, Amity University, Delhi, 20-23 May, 2010 • Correlation between defects, electronic structure and magnetic properties of ion implanted ZnO, Workshop in Low Energy Ion Beam Facility, New Delhi, 9th July, 2009 • Synthesis and modifications of magnetic nanocomposites and study of their high frequency response, Workshop on Nanotechnology, IUAC, New Delhi, 31 Nov, 2006. B D Gupta • Propagating and localized surface plasmon resonance based fiber optic sensors”, International Conference on Fibre Optics and Photonics, Guwahati, December 12 – 15, 2010 • Propagating and localized surface plasmon resonance based fiber optic sensors, International Photonics and Optoelectronics Meetings 2010, Wuhan (China), November 3 -5, 2010 • Fiber optic sensors based on surface plasmon resonance, OSA’s 93rd Annual Meeting on Frontiers in Optics 2009, San Jose, CA (USA), October 11 – 15, 2009 40 • Surface plasmon resonance based fiber optic sensors: Design considerations, International Conference on Optics & Photonics, Chandigarh, October 30 – November 1, 2009. J Joseph • Reconfigurable Holographic Lithography for Photonic Structure fabrication, School of Mechanical and • Aerospace Engineering, Nanyang Technological University, Singapore, 16 July, 2011 • Holographic nano-photonic structures and applications, India-Singapore Physics Symposium, National Singapore, 25 Feb. 2011 • ReconfigurableHolographicLithographyforPhotonicStructurefabrication, 9th Euro-American Workshop on Information Optics (WIO2010) ,Helsinki, Finland, July12-16, 2010 • High density holographic search engine: Holographic Google, International Workshop on Holographic Memories and Displays (IWHM&D 2009), 3-4 Dec. 2009, Univ. Tokyo, Japan • Data input techniques for holographic memory with search and data recovery methods, International Conference on Applications of Photonic Technology (Photonics North 2006), Quebec, Canada, 7 June 2006. S C Kashyap • Novel Nanomaterials: Preparation and Characterization, National Seminar on Applications of Nanomaterials for Environment and Technology Development (ANETD-2011), KIIT, Gurgaon 11-12 February 2011 • Microwave processing of materials- A versatile technique for fabrication of nanowires, amorphous phases and nonequilibrium phases, National Symposium on Microwave Processing (NSMWP-2010), IIT Delhi, November 28, 2010, IIT Delhi • Room temperature ferromagnetism in doped oxide semiconductors, International Conference on Superconductivity and magnetism (ICSM-2010), April 25-30, 2010 in Antalya, Turkey • Magnetic Nanomaterials for Spintronics, International Symposium on Nanostructured Materials: Structure, Properties and Applications (ISNM-2009), October 28-29, 2009 in K.M.V., Jalandhar • Microwave Processing of Tetrahedrally Coordinated- and Compound- Semiconductors, International conference on Materials for Advanced Technologies (ICMAT-2009), 28 June –3 July 2009 Singapore • Magnetic Nanomaterials for Spintronics, National Conf. on Recent adv. In Cond. Matter Physics (RACMP-09) N.I.T. Hamirpur • Magnetic Nanomaterials for Spintronics,: National Workshop on Nanoscience and Nanotechnology (NWNST-2007), March 2007University of Lucknow, Lucknow, • Is Transition Metal Incorporated ZnO an Intrinsic Ferromagnetic Semiconductor?, MRS Spring Meeting 2008, San Francisco, CA , USA (2008) • Room Temperature Ferromagnetism in doped Oxide Semiconductors, Indo-Singapore Symp. on Advanced Mat. (AFMS-6), February 24-26, 2006, I.I.T. Bombay Neeraj Khare • Enhanced flux pinning properties of YBCO nano composite thin films, Sixth East Asia Symposium on Superconductor Electronics, Yamagata University, Japan, October 27-29, 2011 • ZnO nanostructures and heterojunction, Department of Material and Metallurgy, University of Cambridge, UK, July 14, 2011 • Synthesis of nanostructures and nanocomposites for novel applications, 13th International conference of International Academy of Physical Sciences, University of Petroleum and Energy Studies, Dehradun, June 14-15, 2011 • ZnO thin film and devices, India-Singapore Symposium, NUS Singapore, February 22, 2011 • Synthesis of ZnO by chemical route, Department of Electrical and Computer Engineering, National University of Singapore 20 July 2010. • Measurement of magnetic fluctuations using SQUID, East Asia Symposium on Superconductor Electronics EASSE-2009, Nanjing University, China Oct 12-15, 2009 • Optical properties of ZnO microstructure, National conference on Advanced Materials and Nanotechnology AMNT-2009, Jaypee Institute of Information Technology, Noida, UP, Nov 21, 2009 • Development of a high-Tc SQUID based measurement system for basic research studies, In Mini-workshop on SQUID and its applications, SIMIT, Shanghai, China, Oct 16-18, 2009 • Zinc Oxide Nanostructured films, nanoparticles and nanowires, Seoul National University, South Korea June 23, 2009 • Ferromagnetism in diluted magnetic semiconducting Oxides, Physics Department, Inha University, South Korea, June 21, 2009 41 • Nanostructure Zinc Oxide: Synthesis, Properties and Applications, Pohang University of Science & Technology, South Korea, July 20, 2009 • Zinc Oxide Nanostructured films and nanowires: Synthesis and Optical properties, National conference on “Recent Advances in Nano Materials and their applications”, BHU, Varanasi, March 7, 2009 • CNT transparent conducting films, silicon nanowires P-N junctions, IBM T.J Watson Research Center, NY, USA, July 23, 2008 • Nanowires Devices, National conference on Materials Science: Research and Development, National Physical Laboratory Delhi, September 4, 2008 • Origin of Ferromagnetism in diluted magnetic semiconducting oxides, Physics Department, Pohang University of Science and Technology, Pohang, South Korea, September 3, 2007 • Ferromagnetism in Co-doped ZnO, Solid state Physics DAE Symposium, Mysore University, December 28, 2007 • Diluted magnetic semiconducting oxides, India-Singapore Symposium, IIT Madras, February 29, 2008 • Mechanism of Ferromagnetism in Diluted magnetic semiconducting oxides, TIFR, Mumbai, April 11, 2008 • Defect-induced ferromagnetism in Co-doped ZnO”, International Workshop On Advanced Materials And Technologies For Nano And Oxide Electronics, February 19-22, 2007 • Diluted magnetic semiconducting Oxides, 94th Indian Science Congress, Annamalai University, January 3-7, 2007 • Noise measurement using SQUID, East Asia Symposium on Superconductor Electronics, Delhi, December 11-15, 2007 • Magnetic noise measurement using high-Tc SQUID, Taiwan International Conference on Superconductivity & the 8th Workshop on Low-temperature Physics, Yi-Lan ,Taiwan, August 2, 2006 • Spintronics: A new dimension to electronics, 93rd Indian Science Congress, Hyderabad January 3-7, 2006 • Mechanism of ferromagnetism in Co doped ZnO, NPL Teddington, Middlesex, UK, August 30, 2005 • Recent progress in dilute magnetic semiconducting oxides, Department of Physics and Astronomy, University of Sheffield, UK, August 8, 2005 • Ferromagnetism in transition metal doped semiconducting oxides, Physics Department, Trinity College, Dublin, Ireland, July 11, 2005 • Understanding of ferromagnetism Co doped ZnO, Department of Physics, University of Strathclyde, Glasgow, Scotland, June 23, 2005 Ajit Kumar • Bright Optical Solitons, Symposium on Photonics and Fiber Optics, I.P. Engineering College, Sahibabad, 29th April, 2005 • Ultra-short pulse propagation in nonlinear media, 3rd Physical Institute, University of Goettingen, Goettingen, Germany, 15th June, 2006 • Sub-cycle pulse propagation in a Kerr optical fiber including delayed nonlinear response, Nonlinear Physics: Theory and Experiment V, Gallipoli, Lecce, Italy, June 17, 2008 • Single-cycle pulse propagation in a cubic medium, Int. Conf. on Trends in Optics and Photonics, University of Calcutta, March 2-4, 2009 Arun Kumar • Analysis of Rectangular Core Waveguides and Devices, Florida International University, Miami, USA, July 8, 2006 • Single Mode –Multimode- Single Mode Fiber Optic Devices, Japan-Indo Workshop on Microwave, Photonics and Communication Systems, Tokyo Inst. Of Technology, Japan at 2008, July 4, 2008 • Propagation Characteristics of Surface Plasmon Modes Supported by single and coupled Nano-scale Plasmonic Waveguides, Deptt. Of Comp. Science and Communication Engineering, Kyushu University, Fukuoka, Japan, July 7, 2008 • Fiber Optic Devices based on Multimode Interference Effects in Optical Fibers, International Conference on Optics and Photonics, ICOP-2009, CSIO, Chandigarh, India, Oct. 31, 2009 • Photonics at I.I.T.Delhi, Centre de Recherché en Photonique, University of Quebec at Ottawa, Quebec, Canada, August 9, 2010 • Modeling of Plasmonic Waveguides and Devices, Ecole Polytechnique Montreal, Canada, October 22, 2010 • Fiber Optic Devices based on Multimode Interference, Xth International Conference on Fiber Optics and Photonics: PHOTONICS-2010, I.I.T. Guwahati, December 15, 2010 • Modeling of Plasmonic Waveguides and Devices, 7th International Workshop on Fibre Optics and Passive Components: WFOPC-2011, Ecole Polytechnique Montreal, Montreal, Canada, July 15, 2011 42 Vikram Kumar • MEMS based Sensors – An Overview of Technology, IEEE Student Chapter Symposium, IIT Delhi, 15th September, 2009 • Nano Science and Nanotechnology - an Overview, National Symposium on Nanoscience: Theory and Applications, Dept of Environmental Science, Jawaharlal Nehru University, 6th November, 2009 • Contributions to Development of Semiconductor Devices, INAE Annual Meeting, Kalpakkam, 18th December, 2009 • Nanostandards - Indian Status, Managing Technology Risks in an Era of Globalization - A Comparative Study of Nanotechnology Oversight in Asia and Europe; Lee Kuan Yew School of Public Policy, Singapore, 13th April, 2010 • Organic and Hybrid photovoltaic cells, Indo – Australian Workshop on Renewable Energy, Amity University, NOIDA, 10th October, 2010 • Mapan ka Mahatva, National Symposium on Metrology, World Metrology Day, National Physical laboratory, New Delhi, 20th May, 2010 • Role of Metrology and Standards, National Conference on Recent Trends in Materials and Devices ((RTMD2010), Amity Institute of Applied Sciences, Amity University, NOIDA, 22nd May, 2010 • Nanomaterials in Photovoltaic R & D, Second National Workshop on Recent Trends in Semiconductor Devices and Technology, Deen Dayal Upadhyaya College, 18th September, 2010 • Nanomaterials in Photovoltaic R & D, Indo-US Roundtables on perspectives in Science and Technology; National Institute for Advanced Studies, Bangalore, 23rd September, 2010 • Inaugural Address, International Conference on Applications of Renewable and Sustainable Energy for Industry and Society (REIS 2010), Department of Physics, Osmania University, Hyderabad December 16, 2010 • Nanomaterials In Photovoltaics, Nanomaterials for Sustainable Energy - EU-INDIA Workshop India Habitat Centre (IHC), New Delhi, 2nd October, 2011 • Overview of MEMS and Nanoelectronics R&D in India, 3rd Chinese-India Workshop on MEMS and NEMS, JINCI Hotel - Taiyuan, China, December 6 - 8, 2010 • Trends in Photovoltaics Research, Indo-US workshop on Energy and Environment: Challenges and Research Opportunities, The Claridges, Suraj Kund Delhi, 15th Oct, 2010 • Monolithic Microwave Integrated Circuits – Technology development and production, Technology day, IIT Delhi, 11th May, 2011 • An Overview of Photovoltaic Research in India, Indo-Spanish Joint Workshop in Renewable Energies, University of Seville, Seville (Spain), March 2, 2011 • Solar Energy Photovoltaics-an introduction, National Symposium on Recent Advances in Material Science; Maharaja Agrasen College, Delhi, August 19th, 2011 • A perspective on Solar Photovoltaics, Symposium on Renewable Energy, IITD Alumni Association, IIT Delhi, 12th November, 2011 • Developments in Nanoelectronics from Defence Perspective, National Workshop on Nanotechnology for Defence Applications, Solid State Physics Laboratory, Delhi, 17th November, 2011 • Nanotechnology for Photovoltaics – an overview, 7th biennial National Symposium and Conference on Solid State Chemistry and Allied Areas (ISCAS 2011) Jamia Milia Islamia, 25th November, 2011. H K Malik • Fascinating Nonlinear Structures in Plasmas, University of Henry Poincare Nancy, FRANCE. June 24, 2011 • Electromagnetic Waves and Plasma Interaction: Wakefield Excitation and Particle Acceleration, ibid, June 22, 2011 • Terahertz Radiation through Tunnel Ionization of a Gas by Two Superposed Laser Pulses, ibid, June 09, 2011 • Microwave and Plasma Interaction: Application to ITER, Institute of Plasmaforschung, Stuttgart University, GERMANY, May 15, 2011 • Plasma and Waves: Introduction and Methodology, National Seminar on Applications of Recent Advances in Science and Technology (ARASAT-2011) held at DCE Farrukhnagar, Haryana, February 19, 2011 • Plasma based Terahertz Radiation Generation, Stuttgart University, Germany, December 8, 2010 • Microwave Generated Wakefield in Plasmas, Utsunomiya University, JAPAN, December 15, 2009 • Plasma and Solitary Waves: Introduction and Methodology at National Conference on Advances in Atomic, Molecular and Nuclear Physics (NCAAMNP) MMH College Ghaziabad , Uttar Pradesh, Nov. 06, 2009 • Waste Reduction and Environment Protection by Plasma based Technologies, International Conference on Biodiversity, Environment and Sustainability: Challenges for Future, Delhi University, New Delhi, Sept 05, 2008 43 • Soliton Reflection in Magnetized Plasmas, Stuttgart University, Germany, December 16, 2007 • Particle Acceleration by Microwaves in Waveguides at POSTECH, South Korea, August 22, 2007 • What does electron mass contribute to soliton propagation in weakly relativistic plasmas, Utsunomiya University, Japan, July 07, 2006 • Soliton Reflection in Magnetized Plasmas, ibid, July 6, 2006 • Soliton propagation in weakly relativistic plasmas, ibid, July 5, 2006 • Plasma and Propagation of Modes, ibid, July 04, 2006 • Laser Plasma Interaction: Electron Acceleration, ibid, June 23, 2006. B R Mehta • Nanoparticle based gas sensors, Advanced School Nanostructured Materials, S N Bose Center for Basic Science, Calcutta, 17 Feb.2005 • Hydrogen-Nanoparticle Interaction in Rare Earth Nanoparticles, -ibid• Fundamental of Nanotechnology, International School on Nanotechnology, Nuclear Science Centre, 19 Feb. 2005 • In2O3:Ag composite nanoparticles layers, National Conference on Nano Science and Technology, NCL Pune, 7-8 March, 2005 • Why Small-Size dependent properties of nanomaterials, National Workshop on Nano Technology, Amity Institute of Nanotechnology, Delhi, 27 May 2005 • Effect of Nanoparticle nature on H-rare earth metal interaction, Indo-German Workshop on Modifications of nanostructures by ion beams, School of Physical Sciences, 18 March, 2005 • Nanostructured Materials: Size and surface dependent properties, Symposium on Mesoscopic Physics, School of Physics Science, JNU, New Delhi • Nanoparticle based rare earth hydrogen induced switchable mirrors, Workshop on Nanotechnology, Chattisgarh Technical Universty, Bhilai, 27 August, 2005 • Nanostructured Materials: Size and surface dependent properties, -ibid• Basics of Low Dimensional Materials Workshop on Advanced Characterization Techniques, IIT Roorkee, 24 August 2005 • Bare Gadolinium Nanoparticles for hydrogen induced switching, Indo-US Workshop on Collaboration and Networking in Materials, NCL Pune, 19-21 December, 2005 • In2O3:Ag composite nanoparticles layers National Conference on Nano Science and Technology, NCL Pune, 7-8 March, 2005 • Small materials- controlling properties by controlling size, National Seminar on Photonics and Nanotechnology, Kalindi College, Delhi University, 1-2 Feb. 2005 • Ion beam induced modifications of nanomaterials, Indo-German Workshop on Modifications of nanostructures by ion beams, Nuclear Science Centre, 20-24 Feb, 2005 • Rare earth composite nanoparticle structures for hydrogen induced switching and sensor applications, IndoBelarus Joint Seminar of Nanoscience and Nanotechnology International Advanced Research Centre for Powder Metallurgy and New Materials, Hyderabad, 21-23 Dec, 2005 • Nanoparticle based rare earth hydrogen induced switchable mirrors, Workshop on Advanced Characterization Techniques, IIT Roorkee, 24 August 2005 • Composite nanoparticle structures for enhanced sensing properties, Indo-Taiwan Workshop on Nanomaterials, INSA, Delhi, 13 March 2006 • Nanoparticle based sensors and switches, International Conference on Nanostructured Materials (ICONSAT 2006), New Delhi, 16-18 March 2006 • Pd nanoparticle based switchable mirrors and sensors, International Conference on Nanostructured Materials for Electronics Applications, Nanotechnology activities, CIMET Pune, 27-30 November, 2006 • Nanotechnology activities India-Brazil-South Africa (IBSA) Nanotechnology Meeting, Saopolo, Brazil, 3-10 Nov, 2006 • Collaboration possibilities between India and EU, EU-India Workshop on Nanotechnology, Porto, Portugal, October, 2006 • Size selected and pair nanoparticles, SFB (Centre of Excellence) Meeting of University of Duisburg-Essen, Rizlern, Austria, Sep 2006 • Rare earth composite nanoparticle structures using size selected and pair nanoparticles, 9th International Conference on Nanostructured Materials, Bangalore, October, 2006 • Nanoparticle based sensors, India-Brazil-South Africa (IBSA) Nanotechnology Meeting, New Delhi, 3April, 2007 • Physics of Low Dimensional Materials, Workshop on Nanotechnology-Current Status and Challenges, Indian 44 Institute of Technology, New Delhi, March 2007 • Pd-Rare earth composite nanoparticles for swiching and sensing applications, National Conference and Review Meeting, Hyderabad, 25 Feb, 2007 • Oxide semiconductor and rare earth nanoparticle based sensors, MRSI lecture at Indira Gandhi Centre for Atomic Research, Kalpakkam, 5 Feb 2007 • Measurement of nanoparticle size distribution, National conference on electron microscopy and allied fields, University of Delhi, November 26-28, 2007 • Rare earth and palladium composite nanoparticle for hydrogenography applications, International Workshop on Nanometrology, National Physics Laboratory, October 17-19, 2007 • High energy ion irradiation of rare earth thin films Physics of low dimensional materials Workshop on Material science with swift heavy ions, Inter University Accelerator Centre, New Delhi. September 17-18, 2007 • Rare earth and Pd nanoparticle based sensor devices, National conference on advanced materials and devices, VIT, Vellore, 23-25 July 2008 • Nanostructure sensors and solar cells, India-Brazil-South Africa (IBSA) Nanotechnology Meeting, Johannesburg, SA, 11-13 June, 2008 • Pair nanoparticles for hydrogen visualization, Future direction of Advanced Materials Research (FDMAR), Shimla, 16-19 April 2008 • Synthesis and applications of size selected Praseodymium and Palladium nanoparticles International conference on nanostructured materials, Chenai, February 27-29, 2008 • Rare earth nanoparticle based switchable mirror devices US-India Nano Institute, Indian Institute of Technology, Chenai, January 9-15, 2008 • Switchable mirror and sensor devices, Indo-Australian workshop on Nanotechnology, Delhi University, 19-21 December, 2008 • Electrical and optical switching in rare earth nanoparticles, Department of Chemistry, Simon Fraser University, Richmond, Canada, 4 June 2009 • Size selected rare earth and palladium nanoparticles, 8th International Conference of the American Ceramic Society of America, Vancouver Canada, 1-5 June 2009 • Complexities of Pd-H interaction in nanoparticles, Symposium on Emerging Trends in Materials, Metrology and Environmental Science, National Physical Laboratory Delhi, 29 July 2009 • Nanostructured materials for solar cells, India - Brazil - S Africa Energy School, Curitiba, Brazil, 16 September 2009 • Rare earth and Pd nanoparticles for hydrogen induced switchable mirror and sensor Applications, Indo – French Nanotechnology Workshop cum International Conference on Nanoscience & Nanotechnology, Ansal Institute of Technology, 12 October 2009 • Conducting atomic force microscopy studies on doped CulnO2 thin film for resistive memory device applications, International Conference on Advanced Nanomaterials and Nanotechnology, IIT Guwahati, 10 December 2009 • Size selected rare earth and palladium nanoparticles for hydrogen induced switching and sensing devices, International conference on Quantum and Nano Computing Systems and applications, Dyalbagh Educational Institute, 17 December 2009 • Size selected rare earth and palladium nanoparticles, India – Japan Workshop on Biomolecular Electronics & Organic Nanotechnology for Environment Preservation, National Physical Lab, Delhi, 18 December 2009 • Nanoscale electrical characterization of CulnO2 delafossite thin films for Optoelectronic applications, 34th International Conference and exposition on advanced ceramics and Composites, Daytona Beach, Florida, 27 January 2010 • Properties of rare earth and pd nanoparticles, Department of Material Sciences, University of South Florida, Tampa, 31 January 2010 • Copper Oxide Thin films and Nanorods for resistive memory devices, Nanostructure Technique, University of Duisburg, Germany, 02 February 2010 • Size selected Gd and Pd nanoparticles, Max Planck Institute for Polymer Sciences, Mainz, Germany, 04 February 2010 • Thin Film technology to nanotechnology, Advanced deposition techniques for Growing nanostructures, IBSA Workshop on Advanced Materials, IGCAR, Kalpakkam, 23 February 2010 A Mishra • D mesons and charmonium states in hot asymmetric strange hadronic matter, Plenary talk at DAE symposium on Nuclear Physics, Department of Nuclear Physics, Andhra University, Vishakhapatnam, 26th to 30th December, 2011 45 • D mesons and charmonium states in hot isospin asymmetric strange hadronic matter, 7th International workshop on Critical Point and onset of Deconfinement, Wuhan, China, 7th to 11th November, 2011 • D-mesons and charmonium states in hot asymmetric nuclear matter, Plenary talk in the meeting on QCD in the medium, University of Calcutta, Kolkata 4-6 October, 2010 • D-mesons in asymmetric nuclear matter plenary talk in the Workshop in Heavy Quarkonia, European Centre for Theoretical Nuclear Physics (ECT), Trento, Italy, 24-29 May, 2009 • D-mesons in asymmetric nuclear matter”, Plenary talk, Quark Gluon Plasma (QGP) meet 2008, VECC, Kolkata, 25-27 November, 2008 B P Pal • Photonic Bandgap Bragg fiber: A Novel Dispersion Tailored Optical Transmission Medium, International Conf. on Advanced Optoelectronics and Lasers (CAOL), Yalta, Ukraine, Sept. 12-17, 2005 • Photonic Bandgap Bragg Fibers: A new Specialty Optical Fiber Technology Platform, International Conf. on Lasers and Optoelectronics (ICOL), Dehradun, Dec. 12-15, 2005 • Photonic Bandgap Bragg Fiber: a Novel Microstructured Optical Transmission Medium, International conf. on MEMS and Semiconductor Nanotechnology (memsNano) at IIT Kharagpur, December 20-22, 2005 • Design and Realization of Fused Fiber Coupler-based All-Fiber Wavelength Selective Devices for DWDM Optical Networks, International conf on Electronic and Photonic Materials, Devices, and Systems (EPMDS), Kolkata, January 4-6, 2006 • Photonic Bandgap Bragg Fibers: a New Platform for Realizing Application-specific Specialty Optical Fibers and Components, Plenary Talk at Annual Conference of the Korean Optical Society at Seoul (Korea), February 9-10, 2006 • Nonlinear Pulse Propagation in Photonic Bandgap Bragg Fibers, International Conference on Optoelectronics, Fiber Optics and Photonics (PHOTONICS’ 2006), Hyderabad, December 13-16, 2006 • Microstructured Optical Fibers: An Emerging Technology and its Potentials, Annual Benelux IEEE LEOS chapter Workshop, Technical University of Eindhoven, Netherlands, May 25, 2007 • Specialty Fibers: Newest Challenge for Fiber Designers, Plenary talk at the conference Photonics North 2008, Montreal, Canada, June 2-4, 2008 • Microstructured specialty optical fibers, Indo-US Round Table Meeting at IISc Bangalore, March 2009 • Microstructured Fibers: Newest Challenge to Fiber Designers, 20th International Conference on Optical Fiber Sensors (OFS-20), Edinburgh, UK, October 5-9, 2009 • Chirped Clad Bragg-like Optical Fibers and Waveguides: A New Tool to Achieve Tailored Functionality, International Conference on Optics and Photonics (ICOP), Chandigarh, Oct. 30-Nov.1 • pecialty Fibers: Newest Paradigm for Fiber Designers, 12th International Symposium on Microwave and Optical Technology (ISMOT-2009), New Delhi, December 16-19, 2009 • Microstructured Fibers: Newest Platform for Application-specific Fiber Optic Components and Sensors, ,Keynote address, International conf on Optical Fiber Sensors and Sensor Networks (SENNET-2009), Vellore, Dec. 8-10, 2009 • Bragg and Bragg-like fibers: A Versatile Platform for All-fiber Photonic Bandgap Devices, International Conf on Fiber Optics and Photonics (PHOTONICS2010), IIT Guwahati, December 12-15, 2010 • Evolution of Specialty Optical Fibers and Fiber-based Components, Plenary Talk, XXXV Optical Society of India Symposium International Conference on Contemporary Trends in Optics and Optoelectronics, Trivandrum, January 17-20, 2011 • Dispersion-tailored optical fibers for specialty applications: Design and certain fabrication issues, 2011, 7th International Workshop on Fibers and Optical Passive Components (WFOPC2011), Montreal, Canada, July 13-15, 2011 • Ultra-fast laser inscripted glass waveguide lattices: A new platform for research on transverse localization of light in disordered dielectric, International Conference on Specialty Glass & Optical Fiber: Materials, Technology and Devices (ICGFO2011), CGCRI, Kolkata, August 4-6, 2011 • Application-specific specialty fibers: Bragg and chirped Bragg-like photonic bandgap fibers, International conference on Lasers, Material Science and Communication (ICLMSC-2011), University of Burdwan, Burdwan, Dec. 7-9, 2011 • Transverse localization of light: A new platform to study wave phenomenon in disordered optical media and potential applications, Plenary talk, International Conference on Trends in Optics and Photonics (ICONTOP 2011), Kolkata, Dec. 7-9, 2011. • Specialty Fibers and All-fiber Components: some recent Results, Fiber Optic Research Center, General Physics Institute, Russian Academy of Sciences, Moscow on September 8, 2005 • Photonic bandgap Bragg fibers: a new platform for realizing application-specific specialty optical fibers and 46 • • • • • • • • • • • • • • components, IEEE/LEOS Distinguished Lecture at i) LEOS chapter, Kolkata on January 2, 2006, ii) NTU, Singapore on February 6, 2006, iii) Plenary talk at Korean Optical Society’s Annual conference on February 9, 2006, iv) College Park, University of Maryland on June 5, 2006, v) Old Dominion University, Norfolk on June 6, 2006, vi) Corning Inc. on June 8, 2006, vii) CREOL, Orlando, Fl on June 14, 2006, viii) National Research Council, Ottawa on June 22, 2006, ix) University of Toronto on June 29, 2006, x) Benelux LEOS Student chapter, Eindhoven, Netherlands, May 25, 2007, xi) City University of London on June 26, 2007, and xii) Scottish LEOS chapter at Heriot Watt University on July 1, 2007 Recent research on Bragg Fibers and all-fiber components, Seoul National University, Korea on 8th February 2006 Photonic bandgap Bragg fibers: Our own research results, Institute of Optics, University of Rochester (USA) on June 2, 2006 i) Propagation in optical fibers and ii) All-fiber components at the Erasmus Mundus Summer School on Photonics, St. Andrews University, Scotland, June-July 2007 Progress in optical fibers from classical to microstructure: A perspective, CNRS laboratory LPMC, University of Nice, France, on 28th September 2007 Progress in Microstructured Optical Fibers and Waveguides: Some Recent Research Results, CNRS laboratory XLIM, University of Limoges, France, 31st October 2007 Microstructured Optical Fibers and Waveguides: Some Recent Research Results, University of Connecticut at Storrs, Connecticut, USA 25th April, 2008 Chirped clad Bragg like fibers: A new paradigm in photonic bandgap fibers, CNRS Laboratory LPMC at University of Nice, France, 1st July 2010 Fiber Optic Sensors and Instrumentation, Keynote Address for Instrumentation and Automation Society of America (Delhi chapter) annual meeting, Qutab Hotel, New Delhi, March 25, 2006 Microstructured Optical Fibers, Indo-UK Workshop on Fiber Optics and Applications, Cochin University of Sc. and Tech., Kochi, August 29-31, 2006 Fiber Optics in Telecommunication, Indo-British Workshop on Optical Fiber Sensors and Components, British Council Auditorium, December 7-9, 2008 All-fiber Components, -ibid-, December 7-9, 2008 Specialty optical fiber: A new platform for guided wave optics, XXXI Optical Society of India (OSI) Symposium on Contemporary Optics and Applications, held at University of Boroda, March 1-3, 2007. Some research results on microstructured optical fibers and waveguides, Indo-UK Workshop under UKIERI on Microstructured Optical Fibers, CGCRI, Kolkata, January 5-7, 2008. Optical fiber-based components and devices for exotic applications, DAE-BRNS Laser Symposium (NLS-19), RRCAT, Indore, Dec. 1 – 4, 2010. G. Vijaya Prakash • Template-assisted Fabrication Techniques for Semiconductor Photonic Architectures, Photonics-2006: Eighth International Conference on Optoelectronics, Fiber Optics and Photonics, Hyderabad, December, 2006 • Template-assisted nanophotonic materials: A bottomup fabrication technology, National Conference on the Physics of Materials (NCPM 2008) at Pondicherry University, Pondicherry, 2008 • Designer Photonic Materials : Harvesting more light from nano/ micro architectures, National conference on Laser Glass science and Technology, Venkateswara University, Tirupathi, 2010. Anurag Sharma • Non-paraxial propagation in 3D: new method of splitting of operators, Japan-Indo Workshop on Microwaves, Photonics, and Communication Systems, Tokyo, Japan, July 4, 2008 • Analytical field model for microstructure optical fibers: recent results, INDO-UK Meeting of UKIERI Partners, Southampton, October 2, 2009 • Recent developments on wide angle and bidirectional propagation methods, XIX International Workshop on Optical Waveguide Theory and Numerical Modelling (OWTNM), Cambridge, UK, April 9-10, 2010 • Variational method for microstructured optical waveguides, UKIERI, Photonics Workshop, City University, London, July 13-14, 2010 • Optical fibers, sensors and metrology, 5th International Conference on Advances in Metrology (AdMet-2005), New Delhi, February 23-25, 2005 • Beam propagation methods for optical waveguides: recent developments, International Conference on Optics & Optoelectronics (ICOL-2005): XXXI Symposium of the Optical Society of India, Dehradun, December 1215, 2005 • Recent developments in wide-angle and bi-directional wave propagation for guided-wave devices, 47 • • • • • • • • • • • • • • • Photonics-2006: Eighth International Conference on Optoelectronics, Fiber Optics and Photonics, Hyderabad, December 13-16, 2006 Variational method for the mode of single mode fibers, International Conference on Optics & Photonics (ICOP2009), CSIO, Chandigarh, Oct. 30-Nov. 1, 2009 Analytical models for the field of microstructure optical fibers, International Symposium on Microwave and Optical Technologies (ISMOT-2009), New Delhi, December 16-19, 2009 Numerical methods for wave propagation through optical waveguiding structures: present status, Fifth International Conference on Industrial and Information Systems (ICIIS-2010), NIT Surathkal, July 29 – August 1, 2010 Wide angle and bi-directional wave propagation methods: Recent developments, Photonics-2010: International Conference on Fiber Optics and Photonics, Guwahati, December 11-15, 2010 Numerical optical wave propagation: split-step formulations in paraxial and non-paraxial methods, XXX OSI Symposium on Optics and Optoelectronics (SOOP-05), New Delhi, January 19-21, 2005 Modelling of optical wave propagation through photonic components and devices, National Conference on Mathematical Techniques: Emerging Paradigms for Electronics and IT Industries (Mateit-2006), New Delhi, March 22-25, 2006 Bi-directional and wide angle beam propagation methods, Indo-UK Workshop on Recent Advances in Fiber Optics and Photonics, IIT Roorkee, August 25 -27, 2006. Photonics crystals and applications to optical waveguidance, National Conference on Advances in Technologically Important Crystals (NC-ATIC), Delhi University, Delhi, October 12-14, 2006 Numerical methods for simulation of reflections in optical waveguiding structures, XXXII Optical Society of India (OSI) Symposium On Contemporary Optics And Applications, Vadodara, March 1-3, 2007 Variational method for modal analysis of integrated optical waveguides, XXXIII OSI Symposium on Optics and optoelectronics, Tezpur, December 18-22, 2007 Beam propagation methods: problems, issues and developments, XXXV Optical Society of India Symposium on Contemporary Trends in Optics and Optoelectronics, Thiruvananthapuram, January, 17-19, 2011. Wide-angle Beam Propagation: Recent Developments, Institut fuer Hochfrequenztecnik und Quantenlektronik, Universitaet Karlsruhe, Germany, June 17, 2005 Approximate and Numerical Methods for Optical Waveguiding Structures, Fukuoka Institute of Technology, Fukuoka, Japan, June 30, 2008 A New Analytical Model for the Field of Microstructure Optical Fibers, Institut fuer Photonik und Quantenelektronik, Universitaet Karlsruhe, Germany, April 15, 2009 Approximate and Numerical Methods for Optical Waveguiding Structures, City University, London, UK, April 6, 2010. A .K.Shukla • Raman Spectroscopy of Laser Generated nano-silicon materials, 2nd International Conference on Current Developments in Atomic, Molecular & Optical Physics with Applications, Delhi University, March 21-23, 2006 • Nonlinear optical fringes and Raman spectroscopy of nanoparticles of silicon, Workshop on Laser Spectroscopy and nanophotonics, Physics Department, IIT Delhi, March 14-15, 2008 • Spectroscopic study of Fano interaction in laser-etched silicon nanostructures, 3rd International Conference on Developments in Atomic, Molecular, Optical & Nano Physics. Delhi University December 14-16, 2011 J.P.Singh • Real time observation of dynamic behavior of liquid indium encapsulated in indium oxide nanotubes, International conference on Nanoscience and Nanotechnology, AIT, Gurgaon, Oct. 12-16, 2009 • Role of hydrogen in metal oxide nanotubes”, International conference on solids and nanomaterials, KMV, Jalandhar Sept. 22-24, 2009 • Micro/Nano instrumentation and nanosensors, International conference on Nanoscience and Nanotechnology, AIT, Gurgaon, sponsored by DST, India and North Dakota University, USA, Dec. 17-21, 2007 • Applications of Sculptured thin films, National conference on Nanoscience and Nanotechnology, Physics Department, Punjab University, March 10, 2005. Kehar Singh • Negative Refraction Metamaterials; A Tutorial Introduction, Conf. on ‘Convergence of Optics and Electronics’ (SPIE students chapters; J I S college of engineering Kalyani and Univ. of Calcutta) March 26-27, 2011 • Photonic Band Gap Structures: An Exciting Area of Nanophotonics, Nat’l Seminar on ’Advances in Laser, 48 Specrtroscopy, and Nanomaterials’ (NSALSN-2011), Nehru Gram Bharati Univ. Allahabad, March 5-7, 2011 • Information Optics by Using Photorefractives, ‘Contemporary Trends in Optics and Optoelectronics’, XXXV Opt. Soc. India Symp., Thiruvananthapuram, Jan17-19,2011 • High Density Holographic Data Storage and Content-addressable Search, PHOTONICS 2010- Int’l Conference on Fiber Optics and Photonics, IIT Guwahati, Dec.12-15, 2010 • Laser Beams with Phase Singularities (Spinning Light), M. N. Saha Memorial Symp on ’Laser Induced Breakdown Spectroscopy’, Univ.of Allahabad, Dec.21-23,2010 • Nonlinear Photorefractive Materials for Information Photonics, Int’l Conf. on ’Multifunctional Materials’ (ICMM2010), Banaras Hindu Univ. Varanasi, Dec 6-9, 2010 • Photonic Bandgap Structures; An Exciting Area of Nanophotonics, Keynote Address, Workshop on Nanomaterials: Recent Techniques and Applicatons, Shobhit Univ. Meerut, March 27, 2010 • Holographic Data Storage and Content-addressable Search: Some New Methods for Improved Performance, (Plenary Lecture) Int’l Conf. on Optics and Photonics, CSIO Chandigarh, Oct. 30 – Nov. 1, 2009 • Encrypted Holographic Memories for Information Security, Nat’l Conf. of S. S. Bhatnagar Award Winners, Devi Ahilya Vishwavidyalaya, Indore, July 17-19, 2009 • Digital Holographic Encryption, 2009 OSA Optics and Photonics Congress on Digital Holography and 3-D Imaging, Vancouver (B. C. Canada), April 26-30,. • Laser Beams with Phase Singularities (Spinning Light), M. N. Saha Memorial Symp. On Emerging Trends in Lasers & Spectroscopy and Applications (MNSETLSA-2009), Univ. of Allahabad, March 23-25, 2009 • Digital Holographic Techniques for Information Security, Int’l Conf. on Trends in Optics and Photonics, Univ. of Calcutta, Kolkata March 1-3, 2009 • Digital Holographic Information Security, Photonics-2008, Proc. Int’l Conf. on ‘Fiber Optics and Photonics’, Delhi, Dec. 15-17, 2008 • Whole Information Security using Digital Holography, Proc. Nat’l Conf. on ‘Photonics and Materials Science’ (NCPMS-2008), Deptt. Appl. Phys. G. J. Univ. Sci. Technol., Hisar, Oct. 24-25, 2008 • 3-D Photonic Crystal Structures by a Dual Beam Multiple Exposure Holographic Technique; Formation of all the Fourteen Bravais Lattices, Opt. Soc. India Annual Symp., Central Univ. Tezpur, Assam, Dec. 18-20, 2007 • Formation of all the Fourteen Bravais Lattices of 3-D Photonic Crystal Structures by a Dual Beam Multipleexposure Holographic Technique, Proc. Indo-Japan Conf., IIT Delhi, Dec. 14, 2007 • Encrypted Content-addressable Holographic Memories, (Plenary Lecture) Proc. 2nd Int’l Conf. on ‘Optics and Laser Applications’ ICOLA’07, Yogyakarta, Indonesia, Sept. 5-7 • Fundamentals of Wave Optics Relevant to Interferometric Measurements, Workshop on “Applications of Displacements Measuring Interferometers for Dimensional Metrology”, National Physical Laboratory New Delhi, July 12-14, 2007 • Laser Beams with Phase Singularities, National Symp. On “Perspectives in Engineering Optics”, CCS Univ. Meerut, April 15, 2007 • Encrypted holographic memories for information security, Opt. Soc. India Annual Symp., M. S. Univ. Baroda, Vadodara, March 2007 • Digital holographic information processing: Three-dimensional machine vision in holographic information security, Proc. Indo-UK workshop on “Recent Advances in Fiber Optics and Photonics”, IIT Roorkee, Aug 25-27, 2006 • Encrypted Holographic Memories for Information Security, 2nd Int’l Confer. On “Current Developments in Atomic, Molecular and Optical Physics with Applications” CDAMOP, Delhi Univ. Delhi, March 21-23, 2006 • Current Issues in Information Security, Int’l Symp. on “Advances in Physics ”, NAS College, CCS Univ. Meerut, Feb. 25, 2006 • Holographic data storage and encrypted memories, Indo-US workshop on ‘Future Trends in Spectroscopy: Application to National Security’, Banaras Hindu Univ. Varanasi, Jan 9-11 2006 • Holographic data storage and encrypted memories, Plenary talk, XXX Optical Society of India (OSI) Symposium on Optics and Opto-Electronics (SOOP-05), Jan 19-21, 2005 • Polarimetric imaging for biomedical applications, Indian Science Congress Association Meet, Ahmedabad, Jan 3-7, 2005. Rajendra Singh • H-implantation-induced blistering/exfoliation in GaN and AlN for potential layer transfer applications, International Workshop on Semiconductor Materials and Devices (IWPSD), Delhi, December 2009 • Resonant Raman Scattering in nonpolar GaN, International Workshop on Semiconductor Materials and Devices (IWPSD), IIT Kanpur, December 2011. 49 Pankaj Srivastava • Some Open Issues in Opto-electronic materials and Dilute Magnetic Semiconductors: Role of Studies Using Synchrotron Radiation, INDUS I & II Users Meeting (October 4-5, 2010), RRCAT, Indore. K Thyagarajan • Physics of Optical Communication, National Laser Symposium (NLS-4), BARC, Mumbai, January 10-13, 2005 • “Optical amplifiers for the S band, International Conf. on Computers and Communications, IIT Kanpur, February 4-6, 2005 • Telecom optique- from boom to bust: Where do we go now?, Café Scientifique, French Cultural Center, New Delhi, April 13, 2005 • Optical fiber designs for enhanced amplifier performance, Optical Sciences Center, University of Arizona, Tucson, Arizona, USA, October 21, 2005 • Optical fiber amplifiers, Indo French Interaction meeting for young researchers in Lasers, Optics and Photonics, IISc, Bangalore, January 6, 2006 • Optical fiber designs for enhanced amplifier performance, CDAMOP 2006, University of Delhi, March 21-23, 2006 • Physics in Optical Communications, Seminar on Emerging Trends in Physics, Khalsa College, Delhi University, September 20, 2006 • Fiber Designs with enhanced performance for application and dispersion compensation, National Conference on Optoelectronics and Lasers (NCOL), Trivandrum, April 10, 2007 • Fundamentals of fiber waveguide modes, Winter College on Fibre Optics, Fibre Lasers and Sensors, Abdus Salam International Centre for Theoretical Physics (ICTP), Trieste, 12-23 February, 2007 • Optical Fiber Communication, Annual Meeting of the Optical Society of India, Vadodara, March 2007 • Optical fiber designs for enhanced optical amplifier performance, University of Nice, Nice, France • Bragg reflection waveguides, Indo-Japan workshop, IIT Delhi, December 2007 • Nonlinear Optics, Series of six lectures, City University of Hong Kong, January to March, 2010 • Nonlinear optics and applications, Series of three lectures, Tokyo Institute of Technology, Tokyo, June-July, 2010 • Guided wave quantum optics, International conference on Quantum communication and Quantum Optics, JP Institute, Noida, April 2011 • Guided wave parametric down conversion and some applications, Workshop on Fiber Optics and Passive Components, Montreal, Canada, July 13-15, 2011 V K Tripathi • Terahertz radiation generation, National Symposium on Plasma Science and Technology, Ahmedabad, December 6, 20 • Laser driven proton acceleration, National Workshop on Intense Laser Science, TIFR, April 15, 2010 • Laser driven ion acceleration, National Symposium on Plasma Science and Technology, Guwahati, December 10, 2007. 50 MAJOR INTERNATIONAL, NATIONAL CONFERENCES AND WORKSHOPS ORGANIZED • International conference on Nano Science and Technology (ICONSAT 2006) for the Nanomission programme of DST during March 16-18, 2006; Technical programme included 50 invited talks and 200 poster presentations. Total participation of 1200 delegates with about 700 conference delegates and 500 school students in the Nanoworld session of this conference. • International conference (held biennially in India) on Fiber Optics and Photonics (PHOTONICS’2008) during December 14-17, 2008; Technical program included 6 plenary and 77 invited review talks, 370 contributory papers (Oral: 106, Poster: 264), and 2 tutorial talks. Total delegates were over 700, which included over 100 from 25 countries besides India. • East Asia Symposium on Superconductor Electronics (EASSE) during 11-15, Dec. 2007. Technical programme included 3 plenary talk and 36 invited talks. • International Workshop on Advanced Materials and Technologies for Nano and Oxide Electronics, during 19th-22nd Feb 2007. Technical programme included 1 plenary talk, 37 invited talks, 2 evening lectures and two poster sessions. Dr. G. Bednorz (Nobel laureate) was also one of the invited speakers in this workshop. • Short in-house course on “Fiber Optics and Optical Networks” for training of Engineers of the company Ciena India, Gurgaon in their premise during October-November 2008 (Coordinator: B. P. Pal) • National Workshop on “Recent Trend in Nanophotonics” held in IIT Delhi during 30th September 1st Oct 2011 ( Coordinator: G. Vijaya Prakash) Patents Sl. No. 1. 2. 3. 4. 5. 6. Title Inventors Details Segmented clad fiber design with tunable leakage loss Permanent Magnet Compact Electron Cyclotron Resonance Plasma Generator Generating Large Volume Plasma with Uniform Density K Thyagarajan and Charu Kakkar Indian Patent Application No: 1391/ DEL/2005 A.Ganguli and R.D.Tarey Indian Patent Application No. 66/ DEL/2006 A.Ganguli and R.D.Tarey Indian Patent Application No. 992/ DEL/2006 Aloka Sinha Indian Patent Application Serial No. 1950/Del/2009 Aloka Sinha Indian Patent Application Serial No. 1325/Del/2007 An Apparatus and Method for detecting Metallic Objects using Wireless Communication An apparatus and method for accessing Computer Data and Surfing the Internet by a Display Unit using Wireless Communication Method and apparatus for phaseencoded homogenized Fourier transform Holographic data storage and recovery D.A. Waldman and Joby Joseph U.S.Patent: Application No.10/962,202 (Granted 2006) 7. Acquisition of high resolution biometric images D.A. Waldman, R. Ingwall, D. Raguin, Joby Joseph and John Berg U.S.Patent: Application No. 20080123908 (Granted 2008) 8. A process for encapsulation of superconductor devices S. C. Kashyap, Kamlesh Kumar Jain and Vinay Kumar Indian patent No. 231048 (2009) U.S. Patent No.: US 6,715,358 B2 (2004) 9. Permanent Magnet Compact Electron Cyclotron Resonance Plasma Generator Neeraj Khare, A K Gupta Indian patent No.: 223616 18/09/2008 51 Books, Publications and patents BookS 1. B. P. Pal (Ed.), GUIDED WAVE OPTICAL COMPONENTS AND DEVICES: BASICS, TECHNOLOGY, AND APPLICATIONS, Academic Press Elsevier, Burlington, pp. 445 (2006). 2. M. R. Shenoy, S. K. Khijawania, A. Ghatak, and B. P. Pal (Eds.), FIBER OPTICS THROUGH EXPERIMENTS, Viva Books, New Delhi (2008); Reprint (2010). 3. B.P. Pal (Ed), FUNDAMENTALS OF FIBER OPTICS IN TELECOMMUNICATION AND SENSOR SYSTEMS, John Wiley (1992); New Age Publishers, New Delhi; Reprint (2008; 2010). 4. Ajoy Ghatak and K Thyagarajan, FIBER OPTICS AND LASERS: THE TWO REVOLUTIONS, Macmillan India (2006). 5. K. Thyagarajan and Ajoy Ghatak,FIBER OPTIC ESSENTIALS, John Wiley, USA (2007). 6. Ajoy Ghatak, OPTICS, Tata McGraw Hill, New Delhi (2008) and McGraw Hill USA (2009); 4th Edition. 7. Anurag Sharma (Ed.), GUIDED WAVE OPTICS: SELECTED TOPICS, Viva Books, New Delhi (2005). 8. S. Ghosh, AN INTRODUCTION TO ENGINEERING ASPECTS OF NUCLEAR PHYSICS, I. K. International Publishing, New Delhi (2010). 9. H. K. Malik and A. K. Singh, ENGINEERING PHYSICS, McGraw Hill, New Delhi (2009). 10. Ajoy Ghatak, EINSTEIN AND THE SPECIAL THEORY OF RELATIVITY, Viva Books, New Delhi (2009). 11. B. P. Pal (Ed), Free access e-book; FRONTIERS IN GUIDED WAVE OPTICS AND OPTOELECTRONICS under the series ADVANCES IN LASERS AND ELECTROOPTICS, In-Tech, Vienna, Austria (2010). 12. K Thyagarajan and Ajoy Ghatak, LASERS: FUNDAMENTALS AND APPLICATIONS, Springer, USA, 2010 13. Ajoy Ghatak and K Thyagarajan, PROBLEMS IN OPTICS AND PHOTONICS, Tata McGraw Hill, New Delhi, 2010 14. B. D. Gupta, FIBER OPTIC SENSORS: PRINCIPLES AND APPLICATION, NIPA, New Delhi (2006) 15. “An Introduction to the Engineering Aspects of Nuclear Physics, Santanu Ghosh, I. K. International Publisher, New Delhi, India, Year 2010. Book Chapters 1. K. Thyagarajan and B. P. Pal, Modeling Dispersion in Optical Fibers: Application to Dispersion Tailoring and Dispersion Compensation in the research Monograph FIBER BASED DISPERSION COMPENSATION, under the series: Optical and Fiber Communication Reports, Vol. 5, Ed. S. Ramachandran, Springer Verlag, Berlin (2007). 2. B. P. Pal, Application-specific Optical Fibers, in the book FRONTIERS IN GUIDED WAVE OPTICS AND OPTOELECTRONICS, B. P. Pal (Ed.), In-Tech Publishers, Vienna, Austria (2010). 3. K Thyagarajan and Ajoy Ghatak, Nonlinear Optics, ENCYCLOPAEDIA OF MODERN OPTICS, R. D. Guenther (Ed.), Elsevier, Amsterdam, 2005. 4. K. Thyagarajan and A. Ghatak, Some important nonlinear effects in optical fibers in GUIDED WAVE OPTICAL COMPONENTS AND DEVICES, B. P. Pal (Ed.), Elsevier, Amsterdam, 2006. 5. K Thyagarajan, Erbium doped fiber amplifiers in Guided Wave Optical Components and Devices, B. P. Pal (Ed.), Elsevier, Amsterdam, 2006. 6. K Thyagarajan, “Optical Fiber Gratings”, in GUIDED WAVE OPTICAL COMPONENTS AND DEVICES, B. P. Pal (Ed.), Elsevier, Amsterdam, 2006. 7. Ajoy Ghatak and K Thyagarajan, Optical Fibers in Springer HANDBOOK OF LASERS AND OPTICS, F. Traeger (Ed.), Springer, 2007. 8. H. K. Malik and A. Malik, Plasma based technologies for waste reduction and environment protection in SOCIETY, SUSTAINABILITY AND ENVIRONMENT, Shivalik Prakashan, New Delhi, 2007. 9. A. K. Shukla, Spectroscopic study of Fano interaction in laser-etched silicon nanostructures, Edited by Man Mohan Narosa Publication, New Delhi, 2008. 10. Amruta Mishra, Kaons and antikaons in dense hadronic matter in monograph in PHYSICS AND ASTROPHYSICS OF HADRONS AND HDRONIC MATTER, edited by A. B. Santra, Narosa Publishing House Pvt. Ltd, 2008. 11. Amruta Mishra, Hadron spectroscopy in ‘QUARK GLUON PLASMA AND HADRON PHYSICS, edited by P. K. Sahu, S. C. Phatak, Y. P. Viyogi, Narosa Publishing, 2009. 12. G. Vijaya Prakash, S. Surendra Babu, A. Amarnath Reddy, Optical Amplifiers from Rare-Earth Co-Doped Glass Waveguides, in ADVANCES IN OPTICAL AMPLIFIERS, Ed. P. Urquhart, Intech Publishers, Austria, 2011. 52 13. B. P. Pal, Optical Waveguide Materials in HANDBOOK ON OPTICAL MATERIALS, Ed. By M. Wakaki, CRC Press/Tayor and Francis (USA), in press, 2011. 14. B. P. Pal, Optical waveguide sensors in HANDBOOK OF OPTICAL SENSORS, ed by Jous Louise Santose, Taylor and Francis (USA), in press, 2011. 15. K Thyagarajan and Ajoy Ghatak, Basic optics in OPTICAL METHODS FOR SOLID MECHANICS Eds. Erwin Hack and P K Rastogi, John Wiley, USA, In Press. 16. A K Ghatak and K Thyagarajan, Optical fibers in OPTICAL FIBERS, Springer Handbook of Lasers and Optics, F Traeger (Ed.), II Edition, Springer, In Press, 2011. 17. A.K. Shukla and Rajesh Kumanr, Spectroscopic study of Fano interaction in laser-etched silicon nanostructures in the book ATOMS AND MOLECULES IN LASER AND EXTERNAL FIELDS, Edited by Man Mohan (Narosa Publication, New Delhi, 2008. 18. S. Ghosh, Nanoscale magnetic semiconductors and magnetic metal/ insulator films: Role of energetic ions in SYNTHESIS AND ENGINEERING OF NANOSTRUCTURES BY ENERGETIC IONS, Nova Science Publishers, New York, 2011. 19. “Nanoscale magnetic semiconductors and magnetic metal/insulator films: Role of energetic ions” S. Ghosh, Chapter 12 pp 203-219 of Synthesis and Engineering of nanostructures by energetic ions, Nova Science Publishers, New York, Year 2011. Journal Publications 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. S. Ghosh, G. P. Agrawal, B. P. Pal, and R. K. Varshney, Localization of light in evanescently coupled disordered waveguide lattices: Dependence on the input beam profile, Optics Communications vol. 284 (2011) 201. B. P. Pal, Commentary on Photonics in India, Nature Photonics, vol. 5 No. 8 (2011) 440. S. Ghosh, N. D. Psaila, R. R. Thomson, B. P. Pal, R. K. Varshney, and A. K. Kar, Ultra-fast laser inscribed waveguide lattice in glass for direct observation of transverse localization of light, Applied Physics Letter (In press, 2011). S. Ghosh, B. P. Pal, and R. K. Varshney, Role of optical nonlinearity on transverse localization of light in a disordered onedimensional optical waveguide lattice, Optics Communications (In press, 2011). S. Ghosh, S. Dasgupta, F. Poletti, R. K, Varshney, B. P. Pal, and D. J. Richardson, Design of a photonic bandgap fiber with large mode area for mid-infrared applications, Optics Express vol. 19 (2011) 21295. Naveen Kumar, M. R. Shenoy, and B. P. Pal, Phasor notations based simple analytical method for intuitive designing of wavelength interleaver with flattop response, JIETE vol. 57 (2011) 224. P. Dabral, M. R. Shenoy, B. P. Pal, and B. D. Gupta, Design, analysis, and realization of a turbidity sensor based on collection of scattered light by a fiber-optic probe, IEEE Sensors J. (In press , 2011). W. Blanc, V. Mauroy, L. Nguyen, B. N. S. Bhaktha, P. Sebbah, B. P. Pal, and B. Dussardier, Fabrication of rare earth-doped transparent glass ceramic optical fibers by modified chemical vapor deposition, J. Am. Ceram. Soc. vol. 94 (2011), 2315 (Rapid communication). B. Nagaraju, R. K. Varshney, G. P. Agrawal, and B. P. Pal, Parabolic pulse generation in a dispersion-decreasing solid-core photonic bandgap Bragg fiber, Opt. Comm. vol. 283 (2010) 2525. S. Ghosh, R. K. Varshney, B. P. Pal, and G. Monnom, A Bragg-like chirped clad all-solid microstructured optical fiber with ultra-wide bandwidth for short pulse delivery and pulse reshaping, Opt. Quant. Electron. vol. 42 (2010) 1. S. Ghosh, G. P. Agrawal, B. P. Pal, and R.K. Varshney, Light localization in evanescently coupled disordered waveguide lattices: Dependence of the input beam profile, Opt. Comm. vol. 284 (2010) 201. Prerana, R. K. Varshney, B. P. Pal, and B. Nagaraju, High sensitive fiber optic temperature sensor based on a sidepolished single-mode fiber coupled to a tapered multimode overlay waveguide, J. Korean Opt. Soc. vol.14 (Special issue on Optoelectronics, Optical Communications and beyond) (2010) 340. B. P. Pal, S. Dasgupta, and M. R. Shenoy, Bragg Fiber Design for Transparent Metro Networks, Opt. Exp. vol. 13 (2005) 621. S. Dasgupta, B. P. Pal, and M. R. Shenoy, Design of a Dispersion Compensating Bragg Fiber with ultra-high Figure of Merit, Opt. Letts. vol. 30 (2005) 1917; reprinted in Virtual Journal of Nanoscale Sc. and Tech. of AIP, July 25, 2005 issue. N. Kumar, M. R. Shenoy, and B. P. Pal, An All-fiber Interferometric Technique for identification of the Coupled and Throughput Ports of a Fused Fiber Directional Coupler, Opt. Commn. vol. 251 (2005) 301. M. R. Shenoy, N. Kumar, and B. P. Pal, Novel technique to tune the free spectral range of all-fiber wavelength interleavers, Microwave and Opt. Tech. Letts. vol. 47 (2005) 137. N. Kumar, M.R. Shenoy, and B. P. Pal, Standard single-mode fiber-based loop mirror as a gain flattening filter, IEEE Photon. Tech. Lett. vol. 37 (2005) 2056. Quiang Wu, Pak L. Chu, H. P. Chan, and B. P. Pal, Polymer-based compact comb filter with flat top response, IEEE Photon. Tech. Lett. vol. 17 (2005) 2619. N. Kumar, M. R. Shenoy, and B. P. Pal, An all-fiber interferometric technique for an accurate experimental estimation of the mode effective index of a single-mode fiber, Opt. Eng. vol. 45 (2006) 015004. N. Kumar, M. R Shenoy, K. Thyagarajan, and B. P. Pal, Graphical representation of the supermode theory of a waveguide directional coupler, Fib. Int. Opt. vol. 25 (2006) 231. Qiang Wu, Pak L. Chu, H. P. Chan, and B. P. Pal, A Y-junction polymer optical waveguide interleaver, Opt. Commn. vol. 267 (2006) 373. B. P. Pal, S. Dasgupta, M. R. Shenoy, and A. Sysoliatin, Supercontinuum generation in a Bragg fiber: Design and Analysis, Optoelectron. Letts. vol. 2 (2006) 342. V.Karthik, S. S.Rao, M. R.Shenoy, Prerana and B. P. Pal, Determination of Optical Properties of a Turbid Medium using Fiber 53 Optic Transmission Experiment, Asian J. Chem. vol. 18 (2006) 3344. 24. S. Dasgupta, B. P. Pal, and M. R. Shenoy, Nonlinear spectral broadening in solid core Bragg fibers, IEEE J. Lightwave Tech. (Special Issue on Modeling of Guided Wave Photonic Devices), vol. 25 (2007) 2475. 25. R. K. Varshney, A. Singh, K. Pande, and B. P. Pal, Side-polished fiber-based gain-flattening filter for erbium-doped fiber amplifiers, Opt. Commn. vol. 271 (2007) 441. 26. S. Dasgupta, A. K. Ghatak, and B. P. Pal, Analysis of Bragg reflection waveguides with finite claddings: An accurate matrix method formulation, Opt. Commn. vol. 279 (2007) 83. 27. R. K. Varshney, B. Nagarazu, A. Singh, B. P. Pal, and A. K. Kar, Design and Realization of an All-Fiber Broadband Tunable Gain Equalization Filter for DWDM Signals, Opt. Exp. vol. 15 (2007) 13519. 28. B. P. Pal, S. Ghosh, R. K. Varshney, S. Dasgupta, and A. Ghatak, Loss and dispersion tailoring in 1D photonic band gap Bragg reflection waveguides: finite chirped claddings as a design tool, Opt. Quant. Electron. vol. 39 (Special issue on Microstructured Fibers and Waveguides) (2007) 983. 29. Prerana, M. R. Shenoy, and B. P. Pal, Method to determine Optical Properties of Turbid Media, Appl. Opt. vol. 47 (2008) 3216; reprinted in Virtual J for Biomed. Opt., 2008, July 23rd issue. 30. Wai Ying Chan, Kai Xin Chen, Hau Ping Chan, B. P. Pal and R. K. Varshney, A flattop PLC polymer waveguide interleaver based on folded two-stage-cascaded Y-junction Mach Zehnder interferometers, Opt. Commn. vol. 282 (2008) 883. 31. Naveen Kumar, M. R. Shenoy, and B. P. Pal, Flattop all-fiber wavelength interleaver for DWDM transmission: Design analysis, parameter optimization, fabrication and characterization recipe, Opt. Commn. vol. 281(2008) 5156. 32. B. Nagaraju, M. C. Paul, M. Pal, A. Pal, R. K. Varshney, B. P. Pal, S. K. Bhadra, G. Monnom, and B. Dussardier, Design and fabrication of an intrinsically gain flattened Erbium doped fiber amplifier, Opt. Commn. vol. 282 (2009) 2335. 33. S. K. Varshney, K. Saitoh, M. Koshiba, B. P. Pal, and R. K. Sinha, Design of S-band concentric dual core photonic crystal fibers with ASE suppression, IEEE/OSA J. Lightwave Tech. vol. 27 (Special issue on Photonic Crystal Fibers) (2009) 1725. 34. B. Nagaraju, R. K. Varshney, and B. P. Pal, A Semi-numerical approach for Modeling of Side-polished Microstructured optical fiber-based devices, App. Opt. vol. 48 (Feature issue on Guided Wave Optics) (2009) G6. 35. H. T. Bookey, S. Dasgupta, N. Bezwada, B. P. Pal, A. Sysoliatin, J. McCarthy, M. Salganskii, V. Khopin, and A. K. Kar, Experimental demonstration of spectral broadening in all-solid silica Bragg fiber, Opt. Exp. vol. 17 (2009) 17130. 36. S. Das, A. A. Reddy, and G. V. Prakash, Strong green upconversion emission from Er3+-Yb3+ co-doped KCaBO3 phosphor, Chem. Phys. Lett., vol. 504 (2011) 206. 37. A. A. Reddy, S. S. Babu, K. Pradeesh, C. J. Otton, and G. V. Prakash, Optical properties of highly Er3+ doped sodiumaluminium-phosphate glasses for broadband 1.5 μm emission, J. Alloys and Compounds vol. 508 (2011) 4047. 38. V. K. Dwivedi, K. Pradeesh, and G. V. Prakash, Controlled emission from dye saturated single and coupled microcavities, Appl. Surface Sc. vol. 257 (2011) 3468. 39. A. A. Reddy, M. C. Sekhar, K. Pradeesh, S. S. Babu, and G. V. Prakash, Optical properties of Dy3+-doped Sodium-AluminiumPhosphate glasses, J. Mat..Sc. vol. 46, (2011) 2018. 40. S. Das, A. A. Reddy, S. A., R. Nagarajan, and G. V. Prakash, Synthesis and optical characterization of strong red light emitting KLaF4:Eu3+ nanophosphors, Chem. Phys. Lett. vol. 508 (2011) 117. 41. S. Das, A. A. Reddy, S. S. Babu, and G V. Prakash, Controllable white light emission from Dy3+-Eu3+ co-doped KCaBO3 phosphor, J. Mat. Sci. vol. 46, (2011) 7770. 42. K. Pradeesh, G. S. Yadav, M. Singh, and G. V. Prakash, Synthesis, structure and optical studies of inorganic-organic hybrid semiconductor, NH3(CH2)12NH3PbI4, Mat. Chem. Phys. vol. 124 (2010) 44. 43. K. Pradeesh and G. V. Prakash, Strong-Coupling in Inorganic-Organic Hybrid Embedded Single and Coupled Metallic Microcavities, J. Nanosc. Nanotec. vol. 11 (2011) 10715. 44. S. P. Singh, C. J. Otón, P. Srivastava, S. Ghosh, and G. V. Prakash, Optical and Structural Features of Silicon-rich Hydrogenated Amorphous Silicon Nitride Thin Films, J. of Nanosc. Nanotech. vol. 11 (2011) 10733. 45. S. P. Singh, G. V, Prakash, S. Gosh, S. Rai, and P. Srivastava, Impact of thermal annealing on interfacial layer and electrical properties of a-SiNx:H/Si, Europhys. Lett. vol. 90 (2010) 26002. 46. S. P. Singh, P. Srivastava, S. Ghosh, S. A. Khan, C. J. Oton, and G. V. Prakash, Phase evolution and photoluminescence in as-deposited amorphous silicon nitride films, Scripta Materialia vol. 63 (2010) 605. 47. G. Singh, A. Choudhary, G. V. Prakash, and A. M. Biradar, Anisotropic behavior of water in ferroelectric liquid crystals, Phys. Rev. E vol. 81 (2010) 051707. 48. G. Singh, G. V. Prakash, A. Choudhary, and A. M. Biradar, Homeotropic alignment of nematic liquid crystals with negative dielectric anisotropy, Physica B vol. 405 (2005) 2118 49. K. Pradeesh, M. Agarwal, K. K. Rao, and G. V. Prakash, Synthesis, Crystal Structure and Optical Properties of Quasi-OneDimensional Lead (II) Iodide: C14H18N2Pb2I6, Sol. State Sc. vol. 12 (2010) 95. 50. K. Pradeesh, J. J. Baumberg, and G. V. Prakash, Strong Exciton-Photon coupling in Inorganic-Organic Multiple Quantum Wells Embedded Low-Q Microcavity, Opt. Exp. vol. 17 (2009) 22171. 51. K. Pradeesh, J. J. Baumberg, and G. V. Prakash, Exciton Switching and Peierls transitions in hybrid inorganic-organic selfassembled quantum wells, Appl. Phys. Letts. vol. 95 (2009) 173305. 52. K. Pradeesh, J. J. Baumberg, and G. V. Prakash, In situ intercalation strategies for device-quality hybrid inorganic-organic self-assembled quantum wells, Appl. Phys. Lett. vol. 95 (2009) 033309. 53. S. P. Singh, P Srivastava, S. Gosh, S. A. Khan, and G. V. Prakash, Phase stabilization by rapid thermal annealing in amorphous hydrogenated silicon nitride film, Journal of Physics: Condensed Matter, vol. 21 (2009) 095010. 54. G. V. Prakash, K. Pradeesh, R. Ratnani, K. Saraswat, M. E. Light, and J. J. Baumberg, Structural and Optical Studies of local disorder sensitivity in natural organic-inorganic self-assembled semiconductors, J. Phys. D: Appl. Phys. vol. 42 (2009) 185450. 54 55. S. P. Singh, P. Srivastava, G. V. Prakash, M. H. Modi, S. Rai, and G. S. Lodha, Optical and Structural Characterization of rapid thermal annealed non-stoichiometric silicon nitride film, J. Phys.: Cond. Matter vol. 20 (2008) 335232. 56. G. Singh, G. V. Prakash, S. Kaur, A. Choudhary, and A. M. Biradar, Molecular relaxation in homeotropically aligned ferroelectric liquid crystals, Physica B vol. 403 (2008) 3316. 57. K. Pradeesh, C. J. Oton, V. K. Agotiya, M. Raghavendra, and G. V. Prakash, Optical Properties of Er3+ doped alkali chloro phosphate glasses for optical amplifiers, Opt. Mater. vol. 31 (2008) 155. 58. G. V. Prakash, K. Pradeesh, A. Kumar, S. V.l Rao, M. L. Markham, and J. J. Baumberg, Fabrication and Optoelectronic characterisation of ZnO photonic structures, Mater. Lett. vol. 62 (2008) 1183. 59. M. Trupke, F. R. Martinez, E. A. Curtis, J. P. Ashmore, S. Eriksson, E. A. Hinds, Z. Moktadir, C. Gollasch, M. Kraft, G. V. Prakash, and J. J. Baumberg, Pyramidal micromirrors for microsystem and atom chips, Appl. Phys. Lett. vol. 88 (2006) 071116. 60. G. V. Prakash, R. Singh, A. Kumar, and R. K. Mishra, Fabrication and Characterisation of Cdse photonic structures from self-assembly, Mate. Lett. vol. 60 (2006) 1744. 61. G. V. Prakash, M. Kaczmarek, A. Dyadyusha, G. D. Alessandro, and J. J. Baumberg, Control of topological defects in microstructured liquid crystal cells, Opt. Exp. vol. 13 (2005) 2201. 62. C. E. Finlayson, G. V. Prakash and J. J. Baumberg, Strong exciton-photon coupling in a length tunable optical microcavity with J-aggregate Dye Heterostructures, Appl. Phys. Lett. vol. 86 (2005) 041110. 63. C. R. Mariappan, G. Govindaraj, S. V. Rathan, and G. V. Prakash, Vitrification of K3M2P3O12 (M= B, Al, Bi) NASICON type materials and electrical relaxation studies, Mate. Sc. Engg. B vol. 123 (2005) 63. 64. C. R. Mariappan, G. Govindaraj, S. V. Rathan, and G. V. Prakash, Preparation, characterisation, ac conductivity and permittivity studies on vitreous M4AlCdP3O12 (M= Li, Na, K) system, Mater. Sc. Engg. B vol. 121 (2005) 2. 65. R. Singh, R. Scholz, M. Reiche, S. Mantl, and S. Christiansen, Hydrogen implantation-induced blistering in Si0.70Ge0.30, Semicond. Sci. Technol. vol. 26, (2011), 125001. 66. T. Singh, D. K. Pandya, and R. Singh, Annealing studies on the structural and optical properties of electrodeposited CdO thin films, Mater. Chem. Phys., vol. 130 (2011) 1366. 67. Trilok Singh, D.K. Pandya, and R. Singh, Surface plasmon enhanced bandgap emission of electrochemically grown ZnO nanorods using Au nanoparticles, Thin Solid Films (in press, 2011) 68. U. Dadwal, A. Kumar, R. Scholz, M. Reiche, P. Kumar, G. Boehm, M. C. Amann, and R. Singh, Blistering study of H-implanted InGaAs for potential heterointegration applications, Semicond. Sci. Tech. vol. 26 (2011) 085032. 69. T. Singh, D.K. Pandya, and R. Singh, Electrochemical deposition and characterization of elongated CdO nanostructures, Mat. Sci. Engg. B vol. 176, (2011) 945. 70. T. Singh, D. K. Pandya, and R. Singh, Growth of CdO and ZnCdO based novel nanostructures using electrochemical deposition, Int. J. Nanosci. vol. 10, (2011) 827. 71. A. Kumar, D. Kanjilal, V. Kumar, and R. Singh, Defect formation in GaN epitaxial layers due to SHI irradiation, Radiat. Eff. & Def. Solids vol. 1349 (2011) 1099. 72. T. Singh, D.K. Pandya, and R. Singh, Template assisted growth of ZnO-based nanowires by electrochemical deposition, J. Nano- & Electron. Phys. vol. 3 (2011) 146. 73. T. Singh, D.K. Pandya, and R. Singh, Synthesis of cadmium oxide doped ZnO nanostructures using electrochemical deposition, J. Alloys & Compounds vol. 509 (2011) 5095. 74. C. S. Singh, G. Agarwal, G. D. Rao, S. Chaudhary, and R. Singh, Effect of hydrogen peroxide treatment on the electrical characteristics of Au/ZnO epitaxial Schottky diode, Mater. Sci. Semicond. Process. vol.14 (2011)1. 75. R. Singh, S. H. Christiansen, O. Moutanabbir, and U. Gösele, The phenomenology of ion implantation-induced blistering and splitting in compound semiconductors, J. Electron. Mat. Vol. 39 (2010) 2177 (Review article). 76. T. Singh, D. K. Pandya, and R. Singh, Potential Dependent Growth of Zinc Oxide Based Ternary Compound Nanostructures, AIP Proceedings vol. 1313 (2010) 115. 77. U. Dadwal, R. Scholz, P. Kumar, D. Kanjilal, S. Christiansen, U. Gösele, and R. Singh, Hydrogen implantation-induced large area exfoliation in AlN epitaxial layers, Phys. Stat. Sol. (a) vol. 207 (2010) 29. 78. R. Singh, U. Dadwal, R. Scholz, O. Moutanabbir, S. Christiansen, and U. Gösele, Study of implantation-induced blistering/ exfoliation in wide bandgap semiconductors for layer transfer applications, Phys. Stat. Sol. (c) vol. 7 (2010) 44. 79. T. Singh, R. Scholz, S. H. Christiansen, U. Goesele, and R. Singh, Surface exfoliation in ZnO by hydrogen implantation and its smoothening by high temperature annealing, Phys. Stat. Sol. (c) vol. 7 (2010) 444. 80. R. Singh, R. Scholz, S. H. Christiansen, and U. Gösele, Formation of nanovoids/microcracks in high dose hydrogen implanted AlN, Phys. Stat. Sol. (a) vol. 205 (2008) 2683. 81. R. Singh, R. Scholz, U. Gösele, and S. H. Christiansen, Investigation of blistering kinetics in hydrogen implanted AlN, Semicond. Sci. Technol. vol. 23 (2008) 045007. 82. C. Himcinschi, R. Singh, O. Mountanabbir, R. Scholz, M. Reiche, S. H. Christiansen, U. Gösele, and D. R. T. Zahn, Etchingback of uniaxially strained silicon on insulator investigated by spectroscopic ellipsometry, Phys. Stat. Sol. (a) vol. 205 (2008) 841. 83. R. Singh, R. Scholz, U. Gösele, and S. H. Christiansen, Narrow dose window of hydrogen implantation-induced exfoliation in ZnO, Semicond. Sci. Technol. vol. 22 (2007) 1200. 84. R. Singh, I. Radu, S. H. Christiansen and U. Gösele, Enhancement of wafer bow of free-standing GaN substrates due to high dose hydrogen implantation: Implication for GaN layer transfer applications, Semicond. Sci. Technol. vol. 22 (2007) 418. 85. C. Himcinschi, R. Singh, I. Radu, A. P. Milenin, W. Erfurth, M. Reiche, U. Gösele, S. Christiansen, F. Muster, and M. Petzold, Strain relaxation in nanopatterned strained silicon round pillars, Appl. Phys. Lett. vol. 90 (2007) 021902. 86. R. Singh, I. Radu, M. Reiche, C. Himcinschi, B. Kuck, B. Tillack, U. Gösele, and S. H. Christiansen, HDP-CVD oxide to 55 thermal oxide wafer bonding for strained silicon layer transfer application, Appl. Surf. Sci. vol. 253 (2007) 3595. 87. C. Himcinschi, I. Radu, F. Muster, R. Singh, M. Reiche, M. Petzold, U. Gösele, and S. H. Christiansen, Uniaxial strained silicon by wafer bonding and layer transfer, Solid-State Electron. Vol. 51 (2007) 226. 88. S. H. Christiansen, R. Singh, and U. Gösele, Wafer Direct Bonding: From Advanced Substrate Engineering to Future Applications in Micro/Nanoelectronics, Proc. IEEE vol. 94 (2006) 2060. 89. H. Kumar, S. Ghosh, D. K. Avasthi, D. Kabiraj, A. Muecklich, S. Zhou, H. Schmidt and J. P. Stouquert, Ion beam induced shaping of Ni nanoparticles embedded in a silica matrix: from spherical to prolate shape, Nanoscale Res. Letts. (Nano Exp.) vol. 6 (2011) 1. 90. H. Kumar, S. Ghosh, D. Burger, Lin Li, S. Zhou, D. Kabiraj, D. K. Avasthi, R. Grotzschel, and H. Schmidt, Role of Coulomb blockade and spin-flip scattering in tunneling magnetoresistance of FeCo-Si-O nanogranular films, J. Appl. Phys. vol. 109 (2011) 073914. 91. H. Kumar, S. Ghosh, D. K. Avasthi, D. Kabiraj, N. P. Lalla, T. Shripati, and J. C. Pivin, Magnetic and field emission studies of atom beam sputtered Ni:SiO2 granular films, Vacuum vol. 85 (2010) 139. 92. Anjali, S. Ghosh, P. Srivastava, S. A. Khan, and A. P. Pathak, Band gap controlled H loss from passivated MCT wafers under intense electronic energy loss, Nucl. Instr. Meth. Phys. Res. B vol. 269 (2010) 1016. 93. R. K.Singh , J. Kumar, A. Kumar, V. Kumar, R. Kant, and R. Singh, Poly (3-hexylthiophene):Functionalized single-walled carbon nanotubes: (6,6)-phenyl-C61-butyric acid methyl ester composites for photovoltaic cell at ambient condition, Solar Energy Mater. & Solar Cells vol. 94 (2010) 2386. 94. S. K. Srivastava, V. D. Vankar, and V. Kumar, Effect of hydrogen plasma treatment on the growth and microstructures of multi walled carbon nanotubes, Nano-Micro Letts. vol. 2 (2010) 42. 95. D. Kumar, S. K. Srivastava, P. K. Singh, M. Husain, and V. Kumar, Fabrication of silicon nanowire arrays based solar cell with improved performance, Solar Energy Mater. & Solar Cells vol. 95 (2010) 215. 96. U. Kumar, K. Kumari, S. N. Sharma, M. Kumar, V. D. Vankar, R. Kakkar, and V. Kumar, Role of surface modification of colloidal CdSe quantum dots on the properties of hybrid organic-inorganic nanocomposites, Colloid and Polymer Science, vol. 288 (2010) 841. 97. A. Jain, P. Kumar, S. C. Jain, R. Muralidharan, S. Chand, and V. Kumar, J-V characteristics of GaN containing traps at several discrete energy levels Solid-State Electron. vol. 54 (2010) 288. 98. S. K. Srivastava, D. Kumar, P. K. Singh, M. Kar, V. Kumar, and M. Husain, Excellent antireflection properties of vertical silicon nanowire arrays, Solar Energy Mater. & Solar Cells vol. 94 (2010) 1506. 99. B. Pandey, S. Ghosh, P. Srivastava, P. Kumar, D. Kanjilal, S. Zhou, and H. Schmidt, Room temperature transparent ferromagnetism in 200 keV Ni2+ ion implanted pulsed laser deposition grown ZnO/sapphire film, Appl. Phys. Vol. 107 (2010) 023901. 100. S. Handuja, P. Srivastava, and V. D. Vankar, On the growth and microstructure of carbon nanotubes grown by thermal chemical vapor deposition, Nanoscale Res. Lett. vol. 5 (2010) 1211. 101. S. P. Singh, Mohammed H. Modi, and P. Srivastava, Growth kinetics and compositional analysis of silicon rich a-SiNx:H film: A soft X-ray reflectivity study, Appl. Phys. Lett. vol. 97 (2010) 151906. 102. N. L. Saini, Y. Wakisaka, B. Joseph, A. Ladecola, S. Dalela, P. Srivastava, E. Magnano, M. Malvestuto, Y. Mizuguchi, Y. Takano, T. Mizokawa, and K. B. Garg, Electronic structure of FeSe1-xTex studied by Fe L2,3- edge x-ray absorption spectroscopy, Phys. Rev. B vol. 83, (2011) 052502. 103. S. P. Singh, Mohammed H. Modi, and P. Srivastava, Study of the optical response of Si-rich a-SiNx :H thin film near Si L2,3edge using soft x-ray reflectivity, J. Phys. D: Appl. Phys. vol. 44 (2011) 215501. 104. S. P. Singh and P. Srivastava, Recent Progress in the Understanding of Si-nanostructures Formation in a-SiNx:H Thin Film for Si-based Optoelectronic Devices, Solid State Phenomena vol. 171 (2011)1. 105. A. Kumar and A. Mishra, J/ψ and in isospin asymmetric hot nuclear matter: A QCD sum rule approach, Phys. Rev. C vol. 82, (2010) 045207. 106. P. C. Raje Bhageerathi and Amruta Mishra, r meson spectral function in hot nuclear matter, arXiv: 1008.2883 [nucl-th]. 107. Arvind Kumar and Amruta Mishra, D mesons and charmonium states in hot isospin asymmetric strange hadronic matter, arXiv: 1102.4792 [nucl-th]. 108. Bhaswar Chatterjee, Hiranmaya Mishra, and Amruta Mishra, Chiral symmety breaking in 3-flavor Nambu-Jona Lasinio model in magnetic background, arXiv: 1102.0875 [nucl-th]. 109. Bhaswar Chatterjee, Hiranmaya Mishra, and Amruta Mishra, Vacuum structure and chiral symmetry breaking in strong magnetic fields for hot and dense quark matter, arXiv : 1101.0498 [nucl-th]. 110. M. Khanuja, S. Shrestha, B. R. Mehta, S. Kala, and F. E. Kruis, Magnitude and response time of geometrical and electronic effect in size selected Pd nanoparticles, Journal of Applied Physics, vol. 110, (2011) 3603053 (published on line) 111. S. K. Sengar , B. R. Mehta and G. Gupta, Charge transfer, lattice distortion and quantum confinement effects in Pd, Cu and Pd-Cu nanoparticles; Size and alloying induced modifications in binding energy, Applied Physics Letters, vol. 98 (2011) 3 pages (published on line) 112. R. Kumar, D. Varandani, B. R. Mehta, V. N. Singh, Z. Wen, X. Feng and K. Müllen, Fast response and recovery of hydrogen sensing in Pd-Pt nanoparticle : graphene composite layers, Nanotechnology, vol. 22 (2011) 275719 (published on line) 113. Q. Sun, Yan Wang, Y. G. Nie, B. R. Mehta, M. Khanuja, S. M. Shivaprasad, Yi Sun, J. S. Pan, L. K. Pan and Zhuo Sun, Interface quantum trap depression and charge polarization in the CuPd and AgPd bimetallic alloy catalysts, Physical Chemistry Chemical Physics, vol. 12, (2010) 3131. 114. P. Agar, B. R. Mehta, D. Varandani, A. K. Prasad, M. Kamruddin and A. K. Tyagi, Sensing response of palladium nanoparticles and thin films to deuterium and hydrogen: Effect of gas atom diffusivity, Sensors and Actuators B: Chemical, vol. 150 (2), (2010) 686. 56 115. Y. Nie, Y. Wang, Y. Sun, J. S. Pan, B. R. Mehta, M. Khanuja, S.M. Shivaprasad and C.Q.Sun, CuPd interface charge and energy quantum entrapment: A tight-binding and XPS investigation, Applied Surface Science, vol. 257 (2010) 727. 116. B. Singh, B. R. Mehta, M. Singh, G. Gupta, L. Dössel, X. Feng and K. Müllen, Structural and electronic interaction at CuOhexa-peri-hexabenzocoronene hybrid, Applied Physics Letters, vol. 98 (2011) 072101. 117. A. Athawale, V. N. Singh, B. R. Mehta and K. Navinkiran, Solvent mediated morphological control of aniline stabilized cobalt oxide nanoparticles, Journal of Alloys and Compounds, vol. 492, (2010) 331. 118. D. Varandani, B. Singh, B. R. Mehta, M. Singh, V. N. Singh and D. Gupta, Resistive switching mechanism in delafossitetransition metal oxide (CuInO2- CuO) bilayer structure, Journal of Applied Physics, vol. 107 (2010) 103703. 119. B. R. Mehta, Saatviki Gupta, V. N. Singh, Prashant Tripathi and Deepak Varandani, Photovoltaic response of a topotaxially formed CdS–CuxS single nanorod heterojunction, Nanotechnology, vol. 22 (2011) 1 . 120. P. K. Basu, R. M. Pujahari, H. Kaur, D. Singh, D. Varandani and B. R. Mehta, Impact of surface roughness on the electrical parameters of industrial high efficiency NaOH-NaOCl textured multicrystalline silicon solar cell, Solar Energy, vol. 84 (2010) 1658. 121. R. Sachdeva, S. Johri and S. Ghosh, Cold Atoms in rotating optical lattice with nearest neighbor interaction, Physical Review A, Vol. 82, (2010) 063617. 122. M. Sharma and S. Ghosh, Electron transport and Goos Hanchen shift in Graphene with electric and magnetic barriers, Journal of Physics, Condensed Matter vol. 23 (2011) 055501. 123. N. Singh and A. Sinha, Chaos based multiple image encryption using multiple canonical transforms, Optics & Laser Technology vol. 42 (2010) 724. 124. N. Singh and A. Sinha, Optical image encryption using improper Hartley transforms and chaos, Optik – Int. Jr. for Light and Electron Optics vol. 121 (2010) 918. 125. N. Singh and A. Sinha, Digital image watermarking using gyrator transform and chaotic maps, Optik – Int. Jr. for Light and Electron Optics, vol. 121 (2010) 1427. 126. N. Saini and A. Sinha, Soft biometrics in conjunction with optics based biohashing, Optics Communications, vol. 284 (2011) 756. 127. N. Saini and A. Sinha, Comparative study of biohashing technique using different feature extraction methods, Proc. SPIE 8173, 81730T (2010), doi:10.1117/12.900129. 128. N. Saini and A. Sinha, Optics based Biohashing using joint transform correlator, Optics Communication, vol. 283 (2010), 894. 129. N. Saini and A. Sinha, Optics based Biometric encryption using log polar transform, Optics Communications, vol. 283 (2010) 34. 130. N. Saini and A. Sinha, Key management of the double random phase encoding method using public key encryption, Optics & Laser in Engineering, vol. 48 (2010) 329. 131. N. Singh and A. Sinha, Chaos based secure communication system using logistic map, Optics and Lasers in Engineering, vol. 48 (2010) 398. 132. A. Kumar and A. Mishra, D-mesons and charmonium states in asymmetric nuclear matter at finite temperatures, Phys. Rev. C, vol. 81 (2010) 065204. 133. A. Mishra, A. Kumar, S. Sanyal, V. Dexheimer, and S. Schramm, Kaon properties in (proto-) neutron star matter, Eur. Phys. J A (2010). 134. S. M. Tripathi, A. Kumar, R. K. Varshney, Y. B. P. Kumar, Emmanuel Marin, and Jean-Pierre Meunier, Strain and temperature sensing characteristics of single-mode-multimode-single-mode structures, IEEE J. Lightwave Technol., Vol. 27 (2009) 2348. 135. D. Gupta, A. Kumar and K. Thyagarajan, Polarization Mode Dispersion In Single Mode Optical Fibers Due To Core Ellipticity, Opt. Commun., vol. 263, (2006) 36. 136. A. Kumar and D. Gupta, Vector Modes of Rectangular –Core Dielectric Waveguides: An Improved Perturbation Approach, Opt. Commun., vol. 274, (2007) 327. 137. D. Gupta, A. Kumar, and K. Thyagarajan, Effect of Second-Order Polarization Mode Dispersion On The Performance Of Pmd Emulators, Opt. Eng., vol. 46, (2007) 085006. 138. A. Kumar and T. Srivastava, Modelling of A Nanoscale Rectangular Hole In A Real Metal, Opt. Lett., vol. 33, (2008) 333. 139. A. Kumar and T. Srivastava, Performance of Effective Index Method In The Modeling of A Nanoscale Rectangular Aperture In A Real Metal, Opt. Commun., vol. 281, (2008) 4526. 140. S. M. Tripathi, A. Kumar, E. Marin, and J. P.Meunier, Side Polished Optical Fiber Grating Based Refractive Index Sensors Utilizing The Pure Surface Plasmon Polaritons, IEEE Journ. Lightwave Technol., vol. 26, (2008) 1980. 141. T. Srivastava and A. Kumar, Modal Characteristics Of Coupled Metallic Nanoscale Rectangular Apertures, Appl. Opt., vol. 48, (2009) 2847. 142. S. M. Tripathi, A. Kumar, E. Marin and J.P.Meunier, A Novel Design For Bragg Grating Based Biochemical Sensor Using Sub-Micron Si/SiO2 Waveguides For Lab-On-A-Chip Applications, Appl. Opt., vol. 48 (2009) 4562. 143. T. Srivastava and A. Kumar, Coupling Characteristics of Dielectric Loaded Surface Plasmon Polariton Waveguides: A Simple Method Of Analysis, Appl Optics vol. 48, (2009) G44. 144. S. M. Tripathi, E. Marin, A. Kumar, and J. P. Meunier, Refractive Index Sensing Characteristics of Dual Resonance Long Period Gratings In Bare And Metal-Coated D-Shaped Fibers, Appl. Opt., vol. 48 (2009) G53. 145. T. Srivastava and A. Kumar, Propagation Characteristics of Channel Plasmon Polaritons Supported By A Dielectric Filled Trench In A Real Metal, Journ. Appl. Phys., vol. 106, (2009) 043104. 146. T. Srivastava and A. Kumar, Coupling Characteristics of Dielectric Loaded Surface Plasmon Polariton Waveguides: A Simple Method Of Analysis, Appl. Opt. vol. 48 (2009) G44. 147. T. Srivastava and A. Kumar, Comparative Study Of Directional Couplers Utilizing Long Range Surface Plasmon Polaritons, 57 Appl. Opt. vol. 49 (2010) 2397. 148. S. M. Tripathi, A. Kumar, E. Marin, and J. P. Meunier, Critical Wavelength In The Transmission Spectrum Of SMS Fiber Structure Employing GeO2 Doped Multimode Fiber, IEEE Photon. Tech. Lett., Vol. 22, (2010) 799. 149. C. L. Dube, S. C. Kashyap, Geetanjali, and H. C. Gupta, Microwave Processing and Characterization of Ferrites and Semiconductors, Proc. of Indian National Science Academy 77 (2011) in press 150. M. Raju, Sujeet Chaudhary and D K Pandya, X-ray reflectance studies of interface in ion beam sputtered CoFeB/MgO bilayers, Appl. Phys. Lett. vol. 98 (2011) 212506. 151. S. Sharma, S. Chaudhary, S. C. Kashyap, and V. K. Malik, DC magnetization investigations in Ti1-xMnxO2 nanocrystalline powder, J. Alloy & Comp. vol. 509 (2011) 7434. 152. S. Sharma, S. Chaudhary, S. C. Kashyap, and S. K. Sharma, Room temperature Ferromagnetism in Mn doped TiO2 thin films: Raman and Electronic structural investigations, J. Appl. Phys. vol. 109 (2011) 083905. 153. S. Sharma, S. Chaudhary, N. Panwar, S. C. Kashyap, and D. K. Pandya, Room Temperature Ferromagnetism in Co-doped Titania Thin Films, J. Nanosci. Nanotech, vol. 11 (2011) 2743. 154. Geetanjali, C. L. Dube, S. C. Kashyap and R. K. Kotnala, Effect of microwave processing on polycrystalline hard barium hexaferrite, J. Supercond. and Novel Mag. vol. 24 (2011) 567. 155. S. Sharma, S. Chaudhary, , and S. C. Kashyap, High Temperature DC-Magnetization Investigation on undoped and at.5 % cobalt incorporated TiO2 nanopowders, J. Supercond. and Novel Mag, vol. 24 (2011) 839. 156. M. Singh, S. Chaudhary, S. C. Kashyap, and D. K. Pandya, Synthesis and Investigation of Electrodeposited Half-metallic Fe3O4 Thin films and Nanowires, J. Supercond. and Novel Mag., vol. 24 (2011) 845. 157. N. Sharma, S. Granville, S. C. Kashyap, and J. P.Ansermet, Low-temperature hopping and absence of spin-dependent transport in single crystals of cobalt-doped ZnO, Phys. Rev. B. vol. 82 (2010) 125211. 158. V. Goyal, K. P. Bhatti, and S. Chaudhary, Investigations of DC-magnetization behaviour of nanocrystalline ZnO:Ni, J. Alloys & Comp., vol. 508 (2010) 419. 159. S. Rajput and S. Chaudhary, On the superconductivity and Mg out-diffusion in vacuum synthesized MgB2 samples, IEEE Trans. Appl. Supercond., vol. 20 (2010) 2390. 160. M. C. Dimri, S. C. Kashyap, and D. C. Dube, High frequency behaviour of low temperature sintered polycrystalline NiCuZn ferrites and their composite thick films, Physica Status Solidi A, vol. 207 (2010) 396. 161. S. R. Chauhan and S. Chaudhary, On the Residual Resistivity Ratio in MgB2 Superconductors, IEEE Trans. Appl. Supercond., vol. 20 (2010) 26. 162. S. Sharma, S. Chaudhary and S. C. Kashyap, Observation of room temperature ferromagnetism in spray pyrolyzed polycrystalline Ti1-xCoxO2 thin films, J. of Phys. D., vol. 43 (2010) 015007. 163. D. Kaur, D. K. Pandya, S. Chaudhary, and S. C. Kashyap, Structural and magnetic properties of electrochemically grown Co-Fe and Ni-Fe alloy nanowires arrays, NSTI-Nanotech 2010, vol. 2 (2010) 118. 164. B. B. Singh, P. Gupta, S. Chaudhary, D. K. Pandya, and S. C. Kashyap, Growth and investigations on Si/Fe, MgO/Fe bilayers and Fe/MgO/Fe trilayers fabricated by dual ion beam sputtering, NSTI-Nanotech 2010, Vol. 2, (2010) 57. 165. H. Fulara, M. Raju, S. Chaudhary, S. C. Kashyap, and D. K. Pandya, Magnetic properties of Sputter deposited and magnetically annealed IrMn/CoFeB nanometric bilayers for exchange biased magnetic tunnel junctions, NSTI-Nanotech 2010, vol. 1, (2010) 133. 166. Shikha, D. K. Pandya, S. C. Kashyap, and S. Chaudhary, Growth of improved ultrathin pristine SnO2 films by electric field modified spray pyrolysis technique, Tech. Proc. of the 2010 NSTI Nanotech Conference & Expo., Vol. 3, (2010) 696. 167. C L Dube, S C Kashyap, D K Pandya, and D C Dube, Dielectric and magnetic properties of Zn-Ti substituted M-type barium hexaferrite, Physica Status Solidi A vol. 206 (2009) 2627. 168. C. L. Dube, S. C. Kashyap, and D. C. Dube, Room temperature photoluminescence and dc resistivity of SiO.95Ge0.05 alloy nanowires grown in microwave H-field, J. Alloy & Comp. vol. 488, (2009) 328. 169. M. C. Dimri, V. K. Tripathi, and S. C. Kashyap, Theoretical Modeling and Experimental Verification of the Permeability Measurements of Thick Films at Microwave Frequencies, IEEE Trans.Instrum.& Measurement, vol. 58 (2009) 2911. 170. C L Dube, S C Kashyap, and D C Dube, Growth of SiO.75GeO0.25 alloy nanowires in a separated H-field by microwave processing, Appl. Phys. Lett. vol. 94 (2009) 213107. 171. S C Kashyap, K P Bhatti, S Chaudhary, D K Pandya, and S K Sharma, Chemically Synthesized Ferromagnetic Zn1-xCoxO Nanocrystals: Raman Investigations, Synthesis & Reactivity in Inorg. Metal-org. & Nano-metal Chem. Vol. 39 (2009) 216. 172. S C Kashyap, K Gopinadhan, D K Pandya, and S Chaudhary, A study of room-temperature ferromagnetism in transition metal and fluorine doped spray-pyrolyzed SnO2 thin films, J Mag Mag Mat, vol. 321 (2009) 957. 173. S Chaudhary, K P Bhatti, D K Pandya, S C Kashyap and A K Nigam, Effect of indium incorporation in Zn1-xCoxO thin films, J Mag Mag Mat, vol. 321 (2009) 966. 174. D K Pandya, P Gupta, S C Kashyap, and Sujeet Chaudhary, Electrodeposition and characterization of Cu/Co multilayers: Effect of individual Co and Cu layers on GMR magnitude and behavior, J Mag Mag Mat, vol. 321 (2009) 974. 175. S Rajput and S Chaudhary, Effects of ambient and humidity exposure on the MgB2 superconductor, J. Phys. Chem Solids vol. 70 (2009) 516. 176. C. L. Dube and S. C. Kashyap, D. C. Dube, and D. K. Agarwal, Synthesis of Silicon Nanowires Using Microwave Energy for Optical Devices, Intl. J. Green Tech. vol. 1 (2009) 11. 177. M. C. Dimri, R. Stern, Subhash C. Kashyap, K. P. Bhatti, and D.C. Dube, Magnetic and dielectric properties of pure and doped barium hexaferrite nanoparticles at microwave frequencies, Physica Status Solidi A vol. 206 (2009) 270. 178. H. C. Barshillia, B. Deepthi, K. S. Rajam, K. P. Bhatti, and S. Chaudhary, Growth and characterization of TiAlN/CrAlN superlattices prepared by reactive direct current magnetron sputtering, J. Vac. Sci. Tec. A, vol. 27 (2009) 29. 58 179. A. Mahesh Kumar, M.C. Varma, Charulata Dube, K.H.Rao, and Subhash C.Kashyap, Development of Ni-Zn nanoferrite core material with improved saturation magnetization and DC resistivity, J Mag Mag Mat. vol. 320 (2008) 1995. 180. S. C. Kashyap, C. L. Dube, D. C. Dube, and D. K. Agarwal, Synthesis of Si-Ge Alloys in a Single Mode Microwave Resonant Cavity, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry vol. 38 (2008) 264 181. D .K .Pandya, K.Gopinadhan, Subhash C .Kashyap, and S. Chaudhary, On the Role of Antiferro-magnetic Impurities on Ferromagnetism in Nanocrystalline SnO2: Ni Thick Films, Synthesis and Reactivity in Inorganic, Metal-Organic, and NanoMetal Chemistry vol. 38 (2008) 162. 182. Gopinadhan, S. C. Kashyap, D. K. Pandya, and Sujeet Chaudhary, Evidence of carrier mediated room temperature ferromagnetism in transparent semiconducting Sn1-xCoxO2- δ thin films, J. of Phys.: Cond. Matter, vol. 20, (2008) 125208. 183. H. C. Barshillia, N. Selvakumar, K.S. Rajam, K. Gopinadhan, and S. Chaudhary, Investigations of Interface properties of sputter deposited TiN/CrN superlattices by low angle X-ray reflectivity, J. Phys. D : Appl. Phys., vol. 41, (2008) 205409. 184. S. Rajput and S. Chaudhary, On the superconductivity in in-situ synthesized MgB2 tapes, J. Physics & Chemistry of Solids vol. 69 (2008)1945. 185. H. Barshilia, B. Deepthi, K. Rajam, K. P. Bhatti, and Sujeet Chaudhary, Structure and properties of reactive direct current magnetron sputtered niobium aluminum nitride coatings, J. Mat. Res. vol. 23 (2008) 1258. 186. K. P. Bhatti, V. K. Malik, and S. Chaudhary, Cobalt substituted ZnO thin films – A potential candidate for Spintronics, J. Mat. Sci.: Mat. in Elect., vol. 19 (2008) 849. 187. N. Panwar, D. K. Pandya, A. Rao, K. K. Wu, N. Kaurav, Y. K. Kuo, and S.K. Agarwal, Electrical and Thermal Properties of Pr2/3(Ba1-xCsx)1/3MnO3 Manganites, Euro. J. Phys. B. vol. 65 (2008) 179. 188. J. Narayan, S. Nori, D. K. Pandya, D. K. Awasthi, and A. I. Smirnov, Defect dependent ferromagnetism in MgO doped with Ni and Co, Appl. Phys. Lett. vol. 93 (2008) 082507. 189. N. Panwar, D. K. Pandya, and S. K. Agarwal, Thermoelectric Power Studies on (1-x) Pr2/3Ba1/3MnO3 + x Ag2O Composites, J. Phys.: Condens. Matter, vol. 20 (2008) 285223. 190. S. K. Agarwal, N, Panwar, V, Sen, and D. K. Pandya, Magneto-transport and Thermal Properties of Pr2/3Ba1/3(Mn1-xSbx) O3 System, J. Phys. D: Appl. Phys. vol. 41 (2008) 105004. 191. N. Panwar, V. Sen, D. K. Pandya, and S. K. Agarwal, Transport Properties of Cs doped Pr2/3(Ba1-xCsx)1/3MnO3 Perovskite Manganites, J. Alloys & Compounds vol. 456 (2008) 479. 192. Gopinadhan, S. C. Kashyap, D. K. Pandya, and S. Chaudhary, High temperature ferromagnetism in Mn-doped SnO2 nanocrystalline thin films, J. Appl. Phys. vol. 102 (2007) 113513. 193. N. Panwar, D.K. Pandya and S. K. Agarwal, Magnetotransport and magnetization studies of Pr2/3Ba1/3MnO3: PdO composite manganites, J. Phys. D: Appl. Phys. vol. 40 (2007) 7548. 194. N. Panwar, D. K. Pandya, and S. K. Agarwal, Magnetotransport and magnetization studies of Pr2/3Ba1/3MnO3:Ag2O composite manganites, J. Phys. D: Condens. Matter vol. 19 (2007) 456224. 195. N. Panwar, V. Sen, D. K. Pandya, and S. K. Agarwal, Grain Boundary Effects and the Electrical and Magnetic Properties of Pr2/3Ba1/3MnO3 and La2/3Ca1/3MnO3 Manganites, Materials Letters vol. 61 (2007) 4879. 196. N. Gupta, S. C. Kashyap, and D. C.Dube, Dielectric and Magnetic Properties of Citrate-Route Pocessed Li-Co Spinel Ferrites, Appl. Surface Science vol. 253 (2007) 9039. 197. P. Gupta, D. K. Pandya, S. C. Kashyap, and S. Chaudhary, High giant magneto-resistance in electrodeposited Cu/Co nanomultilayers, Phys. Stat. Sol. (a) vol. 244 (2007) 2453. 198. N. Gupta, S. C. Kashyap, and D. C. Dube, Dielectric and Magnetic Properties of Citrate-Route Processed Li-Co Spinel Ferrites, Phys. Stat. Sol. (a) vol. 244 (2007) 2441. 199. A. Gyore. S. Semperger, V Tihanyi, I. Vajda, M.R.Gonal, K. P.Muthe, S. C. Kashyap, and D. K.Pandya, Comparative analysis of different type of HTS rings in Fault Current Limiters, IEEE Trans. Super. vol. 17 (2007) 1899. 200. N. Panwar, S. K. Agarwal, D. Kaur, and D. K. Pandya, Structural, Electrical and Magnetic Properties of Pr1 – X BaX MnO3 (x = 0.33 – 0.80), Intern. J. Mod. Phys. B vol. 21, (2007) 1. 201. K. P. Bhatti, S. Chaudhary, D. K. Pandya, and S. C. Kashyap, Intrinsic and extrinsic origin of room temperature ferromagnetism in ZnO:Co (5 at%), J. Appl. Phys. vol. 101 (2007) 103919. 202. K. Gopinadhan, D. K. Pandya, S. C. Kashyap, and S. Chaudhary, On the blue shift in Sn1-xCoxO2-d transparent ferromagnetic semiconducting thin films, J. Phys.: Cond. Matt. vol. 19 (2007) 016216. 203. N. Gupta, A. Verma, S. C. Kashyap, and D. C. Dube, Microstructural, dielectric and magnetic behavior of spin deposited nanocrystalline nickel-zinc ferrite thin films for microwave applications, J. Mag. Mag. Mat., vol. 308 (2007) 137. 204. K. P. Bhatti, S. Chaudhary, D. K. Pandya, and S. C. Kashyap, High Temperature Investigation of the Magnetization behavior in Cobalt substituted ZnO, J. Appl. Phys. vol. 101 (2007) 033902. 205. H. Zhou, L. Chen, V. Malik, C. Knies, D. M. Hofmann, K. P. Bhatti, S. Chaudhary, P. J. Klar, W. Heimbrodt, C. Klingshirn, and H. Kalt, Raman studies of ZnO:Co thin films, Phys. Stat. Solidi (a) vol. 204 (2007).112. 206. K. P. Bhatti, S. Kundu, S. Chaudhary, S. C. Kashyap, and D. K. Pandya, Observation of room temperature Ferromagnetism in nanocrystalline ZnO:Co system, J.Phys. D; Appl. Phys. vol. 39 (2006) 4909.. 207. S. Rajput, S. Chaudhary, S. C. Kashyap, D. K. Pandya, P. Srivastava, and A. Lohani, Influence of heat treatment and excess Mg on the superconductivity in bulk MgB2, Bull. of Mat. Sci., vol. 29, (2006) 207. 208. M. C. Dimri, S. C. Kashyap, and D.C. Dube, Complex permittivity and permeability of Co2U (Ba4Co2Fe36O60) hexaferrite bulk and composite thick films at microwave frequencies, IEEE-Trans. Magn. vol. 42, (2006) 3635. 209. K. P. Bhatti, S. Chaudhary, D. K. Pandya and S. C. Kashyap, Extinsic nature of the room temperature ferromagnetism in (ZnO)1-x(MnO2)x, 0.01≤x ≤ 0.97”, Solid State Comm. vol. 140 (2006) 23. 210. P. Gupta, D. D. Shivagan, D. K. Pandya, S. C. Kashyap, and S. Chaudhary, Studies on Electrodeposited Nanometric Co/Cu 59 Multilayers, International J. Nanosci., vol. 5 (2006) 505. 211. D. K. Pandya, Y. Kumar, S. C. Kashyap, and S. Chaudhary, Electrodeposited CoNiFe Alloy Thin Films for Recording Media, International J. Nanosci. vol. 5 (2006) 605. 212. M. C. Dimri, A. Verma, S. C. Kashyap, D. C. Dube, O. P. Thakur, and C. Prakash, Structural, dielectric and magnetic properties of NiCuZn ferrite grown by citrate precursor method, Mat. Sci. Engg. B vol. 133 (2006) 42. 213. M. C. Dimri, S. C. Kashyap, D. C. Dube, and S. K. Mohanta, Complex permittivity and permeability of Co-substituted NiCuZn ferrite at rf and MW frequencies, J. Electroceram. vol. 16 (2006) 331. 214. K. Gopinadhan, D. K. Pandya, S. C. Kashyap, and S. Chaudhary, Cobalt-substituted SnO2 thin films: A transparent ferromagnetic semiconductor, J. Appl. Phys. vol. 99 (2006) 126106. 215. S. Rajput, S. Chaudhary, and S C. Kashyap, Synthesis of MgB2 from magnesium rich powders, Ind. J. Pure & Appl. Phys., vol. 44 (2006) 461. 216. H C Barshillia, K S Rajam, Anjana Jain, K Gopinadhan, and S Chaudhary, A comparative study on the structure and properties of Nanolayered TiN/NbN and TiAlN/TiN Multilayer coatings prepared by reactive DC-magnetron sputtering, Thin Solid Films vol. 503 (2006) 158. 217. S. Chaudhary, A. K. Sisodia, D. C. Dube, Thermal hysteresis across the first order phase transition in the (Na0.5BiO.5)1BaxTiO3 dielectric system, Phase Transitions vol. 78 (2005) 895. x 218. K. P. Bhatti, S. Chaudhary, D. K. Pandya, and S. C. Kashyap, On the room temperature ferromagnetism in (ZnO)0.98(MnO2)0.02, Solid State Comm. vol. 136 (2005) 384. 219. N. Gupta, A. Verma, S. C. Kashyap, and D. C. Dube, Dielectric behavior of spin-deposited nanocrystalline nickel-zinc ferrite thin films processed by citrate-route, Solid State Comm. vol. 134 (2005) 689. 220. N. Gupta, S. C. Kashyap, and D. C. Dube, Microwave behavior of substituted lithium ferrite composites in X-band, J. Mag. Mag. Mat. vol. 288 (2005) 307. 221. N. Gupta, M. C. Dimri, S. C. Kashyap, and D. C. Dube, Processing and Properties of Cobalt-Substituted Lithium Ferrite in the GHz Frequency Range, Ceramics International vol. 31 (2005) 171. 222. M. Kumar, V.N. Singh, B.R. Mehta, and J.P. Singh, Retardation of flow in indium oxide nanotubes, Journal of Physical Chemistry C, vol. 114, (2010) 2891. 223. M. Kumar, R. Chatterjee, A. Kanjilal, K.V. Lakshmi, and J.P. Singh, The role of stoichiometry of indium and oxygen on gas sensing properties of indium oxide nanostructures, Applied Physics Letters, vol. 96, (2010) 123114. 224. R. Nagar, C. Patzig, B. Rauchenbach, V. Sathe, D. Kanjilal, B.R. Mehta, and J.P. Singh, Enhancement of stiffness of vertically standing Si nanosprings by energetic ions, J. Applied Physics, vol. 107, (2010) 094315. 225. D.P. Singh, R. Nagar, and J.P. Singh, Synthesis of SiOx-Ag core-shell nanostructures by oblique angle deposition, J. Applied Physics, vol. 107, (2010) 074306. 226. R. Nagar, R. Teki, J.P. Singh and N. Koratkar, Carbon nanotube photo-thermal-mechanical actuator, J. Nanosci. Nanotechnology, (2010) 935. 227. R. Nagar, C. Patzig, B. Rauchenbach, B.R. Mehta, and J.P. Singh, Mechanical characteristics of Si nanostructures using force distance spectroscopy, J. Nanosci. Nanotechnology, vol. 10, (2010) 2994. 228. R. Nagar, D. Kanjilal, B.R. Mehta, and J.P. Singh, Tailoring the spring constant of Si nanorods structures using swift heavy ion irradiation, Nuclear Instrum. Methods B, vol. 267, (2009) 3617. 229. M. Kumar, R. Chatterjee, A. Kanjilal, K.V. Lakshmi, and J.P. Singh, Invsetigating the role of hydrogen in indium oxide tubular nanostructures as donor or oxygen vacancy passivation center, Applied Physics Letters, vol. 95, (2009) 013102. 230. M. Kumar, V.N. Singh, B.R. Mehta, and J.P. Singh, Tunable synthesis of indium oxide octahedrons, nanowires and tubular nanoarrow structures under oxidizing and reducing ambient, Nanotechnology, vol. 20, (2009) 235608. 231. R. Nagar, C. Patzig, B. Rauchenbach, V. Sathe, D. Kanjilal, B.R. Mehta, and J.P. Singh, Ion beam induced anisotropic deformation of Si nanosprings, J. Phys. D: Applied Physics, vol. 42, (2009) 145404. 232. J. Joseph, A. Bhagatji, and K. Singh, Content-addressable holographic data storage system for invariant pattern recognition of gray-scale images, Appl. Opt., vol. 49, (2010) 471. 233. J. Xavier, M. Boguslawski, P. Rose, J. Joseph, and C. Denz, Reconfigurable Optically Induced Quasicrystallographic ThreeDimensional Complex Nonlinear Photonic Lattice Structures, Adv. Materials., vol. 22, (2010) 356. 234. B. Das, J. Joseph, and K. Singh, Reliability of content-addressable data search in a defocused volume holographic data storage system, Appl. Opt., vol. 49, (2010) 781. 235. A. Nelleri, J. Joseph, and K. Singh, Securing complex and multi-plane data in a lens-less digital holographic information system that uses position-phase-shifting geometry, Opt. & Laser Techn., vol. 42, (2010) 366. 236. J. Xavier, P. Rose, B. Terhalle, J. Joseph, and C. Denz, Three-dimensional optically induced reconfigurable photorefractive nonlinear photonic lattices, Opt. Lett., vol. 34, (2009) 2625. 237. S. Handuja, P. Srivastava and V. D. Vankar, Structural modification in carbon nanotubes by boron incorporation, Nanoscale Research Letters, vol. 4, (2009) 789. 238. A. Bhardwaj, J. P. Kar, O. P. Thakur, P. Srivastava and H. K. Sehgal, Electrical Characteristics of PbSe Nanoparticle / Si Heterojunctions, J. Nano-Science & Nano-Technology, vol. 9, (2009) 5953. 239. C. Weis, H. C. Herper, F. Stromberg, C. Antoniak, A. Warland, E. Schuster, P. Srivastava, M. Walterfang, K. Fauth, J. Minár, H. Ebert, P. Entel, W. Keune, and H. Wende, Local atomic order and element-specific magnetic moments of Fe3Si thin films on MgO(001) and GaAs(001) substratesB. Krumme, Phys. Rev. B, vol. 80, (2009) 144403. 240. S. Handuja, S. P. Singh, P. Srivastava and V. D. Vankar, Growth of long aligned carbon nanotubes on amorphous hydrogenated silicon nitride by thermal chemical vapor deposition, Materials Lett., vol. 63, (2009) 1249. 241. Anjali, S. Ghosh, S.A. Khan, P. Srivastava, R. Pal, A.P. Pathak, Study of H loss from hydrogenated Hg1-xCdxTe under high electronic excitation by elastic recoil detection analysis (ERDA), Nuclear Instruments and Methods in Physics Research B, 60 vol. 267, (2009) 1797. 242. A. Bhardwaj, V.R. Balakrishnan, P. Srivastava and H.K. Sehgal, Self assembled nanoparticle Pb1-xFexSe / single crystal Si heterojunctions, Current Applied Physics, vol. 10, (2010) 203. 243. S. Handuja, P. Srivastava and V. D. Vankar, On the growth and microstructure of carbon nanotubes grown by thermal chemical vapor deposition, Nanoscale Res Lett., vol. 5, (2010) 1211. 244. R. Singh, S. H. Christiansen, O. Moutanabbir, and U. Gösele, The phenomenology of ion implantation-induced blistering and splitting in compound semiconductors, J. Electron. Mat., vol. 39, (2010) 2177. 245. T. Singh, D. K. Pandya and R. Singh, Growth of CdO and ZnCdO based novel nanostructures using electrochemical deposition, Int. J. Nanosci., vol. 10, (2011) 827. 246. U. Dadwal, R. Scholz, P. Kumar, D. Kanjilal, S. Christiansen, U. Gösele, and R. Singh, Hydrogen implantation-induced large area exfoliation in AlN epitaxial layers, Phys. Stat. Sol. (a), vol. 207, (2010) 29. 247. Trilok Singh, R. Scholz, S.H. Christiansen, U. Goesele, and R. Singh, Surface exfoliation in ZnO by hydrogen implantation and its smoothening by high temperature annealing, Phys. Stat. Sol. (c), vol. 7, (2010) 444. 248. H. Kumar, S. Ghosh, D. Burger, S. Zhou, D. Kabiraj, D. K. Avasthi, R. Grotzschel and H. Schmidt, Microstructure, electrical, magnetic and extraordinary Hall effect studies in Ni-SiO2 nanogranular films synthesized by atom beam sputtering, J. Appl. Phys. , vol. 107, (2010) 113913. 249. H. Kumar, S. Ghosh, D. K. Avasthi, D. Kabiraj, N. P. Lalla, T. Shripati and J. C. Pivin, Magnetic and field emission studies of atom beam sputtered Ni:SiO2 granular films, Vacuum , vol. 85, (2010) 139. 250. S. Ghsoh, Electronic sputtering of nanodimensional hydrogenated amorphous carbon and copper oxide thin films, Defense Science Journal, vol. 59, (2009) 371. 251. B. K. Sharma, A. K. Gupta, N. Khare, S. K. Dhawan, H. C. Gupta, Synthesis and characterization of polyaniline- ZnO composite and its dielectric behaviour, Synthetic metals, VOL. 159, (2009) 391. 252. B. K. Sharma, N. Khare, R. Sharma, S.K. Dhawan, V.D. Vankar and H.C. Gupta, Dielectric behaviour of polyaniline CNTs composite in microwave region, Composite Science and Technology, vol. 69, (2009) 1932. 253. B. K. Sharma, N. Khare, S. K. Dhawan and H. C. Gupta Dielectric properties of nano ZnO polyaniline composite in the microwave frequency range, J.Alloys Compounds, vol. 477, (2009) 370. 254. H. C. Gupta, J. Singh, S. Kumar, Karandeep, N. Rani, A lattice dynamical investigation of the Raman and the infrared frequencies of the Dy2Ti2O7 pyrochlore spin ice compound, J.Mol.Structure, vol. 937, (2009) 136. 255. H. C. Gupta, J. Singh, S. Kumar, Karandeep, N. Rani, A lattice dynamical investigation of the Raman and the infrared wavenumbers of Ba2RESbO6(RE=Sm,Y), Physica B, vol. 405, (2010) 410. 256. S. Ghosh and M. Sharma, Electron Optics with magnetic vector potential barriers in Graphene, Journal of Physics, Condensed Matter ( Fast Track Communication), Vol. 21, (2009) 292204. 257. G. P. Shrivastav, S. Krishnamoorthy, V. Banerjee and S. Puri, Scattering Properties of Paramagnetic Ground States in the Three-Dimensional Random-Field Ising Model, Europhysics Letters, vol. 96, (2011). 258. V. Singh and V. Banerjee, Hysteresis in a Magnetic Bead and its Applications, Applied Physics Letters,vol. 98,(2011) 133702. 259. G. P. Shrivastav, V. Banerjee and S. Puri, Mass-Transport Models with Multiple- Chipping processes, European Physical Journal B,vol. 78, (2010) 217. 260. G. P. Shrivastav, V. Banerjee and S. Puri, Mass-Transport Models with Fragmentation and Aggregation, Phase Transitions, vol. 83, (2010)140. 261. V. Singh, V. Banerjee and M. Sharma, Dynamics of Magnetic Nanoparticle Suspensions, Journal of Physics D: Applied Physics, vol.42, (2009) 245006. 262. V. Banerjee, Scaling and Self-Similarity in Pb1−x Fex S Nanoparticle Films, European Physical Journal B, vol. 60,(2007) 493. 263. V. Agarwal, I. Aruna, V. Banerjee and B. R. Mehta, Growth of Palladium Nanoparticles - an Experimental and Numerical Study, Physical Review B, vol. 74, (2006) 035412. 264. V. Banerjee, S. K. Das, S. Puri, Hysteresis and Magnetization jumps in the T = 0 dynamics of Spin Glasses, Physical Review E, vol. 71, (2005) 026105. 265. S. K. Srivastava and B. D. Gupta, Simulation of a localized surface plasmon resonance based fiber optic temperature sensor, JOSA A, vol. 27, (2010) 1743. 266. R. K. Verma and B. D. Gupta, Surface plasmon resonance based fiber opticsensor for the IR region using a conducting metal oxide film, JOSA A, vol. 27, (2010) 846. 267. B. D. Gupta and R. K. Verma, Surface plasmon resonance-based fiber optic sensors: Principle, probe designs, ansd some applications, Journal of Sensors, Vol. 2009, (2009) 12 pages. 268. S. K. Srivastava, R. K. Verma and B. D. Gupta, Theoretical modeling of a localized surface plasmon resonance based intensity modulated fiber optic refractive index sensor, Applied Optics, vol. 48, (2009) 3796. 269. R. K. Singh, P. Senthilkumaran, and K. Singh, Optical transfer function of an optical system with a vortex phase mask in the presence of primary aberrations, Opt. Laser Technol., vol. 42, (2010) 120. 270. A. Nelleri, J. Joseph, and K. Singh, Phase reconstruction in lensless digital in-line holographic microscopy, Opt. Lasers Eng., vol. 48, (2010) 27. 271. M. Joshi, Chardrashakher, and K. Singh, Image encryption using radial Hilbert transform filter bank as an additional key in the modified double random fractional Fourier encoding architecture, Opt. Lasers Eng., vol. 48, (2010) 605. 272. M. Joshi, Chardrashakher, and K. Singh, Fractional Fourier transform based image multiplexing and encryption technique for four-color images using input images as key, Opt. Commun., vol.283 (2010) 2496. 273. B. Das, J. Joseph, and K. Singh, Phase-image based sparse-gray-level data pages for holographic data storage, Appl. Opt., vol. 48, (2009) 5240. 61 274. B. Das, S. Vyas, J. Joseph, P. Senthilkumaran, and K. Singh, Transmission type twisted nematic liquid crystal display for three gray-level phase-modulated holographic data storage systems, Opt. Lasers Eng., vol. 47, (2009) 1150. 275. M. Singh, A. Kumar, and K. Singh, Encryption by using matrix-added, or matrix-multiplied input images placed in the input plane of a double random phase encoding geometry, Opt. Lasers Eng., vol. 47, (2009) 1293. 276. M. Singh, A. Kumar and K. Singh, Encryption and decryption using a sandwich phase diffuser made by using two speckle patterns and placed in the Fourier plane: Simulation results, Optik, vol. 120, (2009) 916. 277. R. K. Singh, P. Senthilkumaran, and K. Singh, Tight focusing of linearly and circularly polarized vortex beams; effect of third-order spherical aberration, Opt. Lasers. Eng., vol. 47, (2009) 831. 278. M. Joshi, Chardrashakher, and K. Singh, Phase image encryption of colored images using double random phase encoding technique in HSV color space, Opt. Review, vol. 16, (2009) 511. 279. J. Xavier, P. Rose, J. Joseph, K. Singh, and C. Denz, Optically induced reconfigurable three-dimensional nonlinear photonic lattices in anisotropic media, Proc. Top. Meet On Photorefractive Materials, Effects and Devices, K. Buse and C. Denz, Eds. OSA, (2009) 68. 280. H.K. Malik and S. Singh, Conditions and growth rate of Rayleigh instability in a Hall Thruster under the effect of ion Temperature, Phys. Rev. E vol. 83 (2011) 036406. 281. Aziz, H. K. Malik, S. Enge, L. Stollenwerk, and U. Stroth, Experimental and simulation studies on soliton generation in a double plasma device: Role of fast ions, Plasma Phys. Controlled Fusion vol. 53 (2011) 065012. 282. A. K. Malik, H. K. Malik, and Y. Nishida, Terahertz radiation generation by beating of two spatial Gaussian lasers, Phys. Lett. A vol. 375 (2011) 1191. 283. N. Dwivedi, S. Kumar, H. K. Malik, Govind, C. M. S. Rauthan, and O. S. Panwar, Correlation of sp3 and sp2 Fraction of Carbon with electrical, optical and nano-mechanical properties of Argon-diluted Diamond-like Carbon films, Appl. Surf. Sc. vol. 257 (2011) 6804. 284. R. Kumar and H.K. Malik, Nonlinear solitary structures in an inhomogeneous magnetized plasma having trapped electrons and dust particles with different polarity, J. Phys. Soc. Japan vol. 80 (2011) 044502. 285. N. Dwivedi, S. Kumar, H. K. Malik, C. M. S. Rauthan, and O. S. Panwar, Role of Sandwich Cu Layer in and Effect of Self Bias on Nanomechanical Properties of Copper/Diamond-like Carbon Bi-layer Films, ISRN Nanotechnology vol. 2011 (2011) (Article ID 846187). 286. F. Aziz, H.K. Malik, and U. Stroth, Soliton Propagation, Reflection, and Transmission in an Inhomogeneous Plasma with Trapped Electrons, Phys. Plasmas vol. 18 (2011) 042304. 287. N. Dwivedi, S. Kumar, H. K. Malik, Nanoindentation Measurements on Modified Diamond-like Carbon Thin Films, Appl. Surf. Sc. vol. 257 (2011) 9953. 288. D. S. Rawal, A. Kapoor, H. S. Sharma, B. K. Sehgal, and H. K. Malik, A Highly Selective Low Pressure Inductively Coupled Plasma Etching Process for GaAs using Photoresist Mask, Open Plasma Phys. J. vol. 4, (in press, 2011). 289. S. Singh and H.K. Malik, Resistive Instabilities in a Hall Thruster under the Presence of Collisions and Thermal Motion of Electrons, Open Plasma Phys. J. vol. 4 (2011) 16. 290. R. Kumar, H.K. Malik and S. Kawata, Soliton Reflection in Plasma with Trapped Electrons: Effect of Dust Concentration. Physica D vol. 240 (2011) 310. 291. D. S. Rawal, B. K. Sehgal, R. Muralidharan, and H. K. Malik, An Experimental Study on the Influence of Process Pressure and Gas Composition on GaAs Etch Characteristics in Cl2/BCl3 based Inductively Coupled Plasma, Plasma Science and Technology vol. 13 (2011) 223. 292. F. Aziz, H.K. Malik and U. Stroth, Oblique Reflection of Solitons in an Inhomogeneous Plasma: Effect of Trapped Electrons, IEEE Transactions on Plasma Science vol. 38 (2010) 452. 293. D. S. Rawal, V. R. Agarwal, H. S. Sharma, B. K. Sehgal, R. Muralidharan, and H. K. Malik, Study of Inductively Coupled Cl2/BCl3 Plasma Process for High Etch Rate Selective Etching of Via-holes in GaAs, Vacuum vol. 85, (2010) 452. 294. H. K. Malik and A. K. Aria, Microwave and Plasma Interaction in a Rectangular Waveguide: Effect of Ponderomotive Force, Journal of Applied Physics vol. 108 (2010) 013109. 295. R. Malik, H. K. Malik and S. C. Kaushik, Propagating and Growing Modes in a Pair-Ion Plasma, Indian Journal of Physics, vol. 85, (2011) 1887. Accepted 296. F. Aziz, H.K. Malik, and U. Stroth, Oblique Reflection of Solitons in an Inhomogeneous Plasma: Effect of Trapped electrons, IEEE Transactions on Plasma Science vol. 38 (2010) 2802. 297. A.K. Malik, H.K. Malik and S. Kawata, Investigations on THz Radiation Generated by Two Superposed Femtosecond Laser Pulses, Journal of Applied Physics, vol. 107 (2010) 113105. 298. H.K. Malik, R. Kumar and K.E. Lonngren, Effect of Ion Temperature on Soliton Reflection in a Magnetized Positive Ion-Negative Ion Plasma with Two Types of Electrons, IEEE Transactions on Plasma Science vol. 38 (2010) 1073. 299. H.K. Malik, D.K. Singh, and Y. Nishida, On Reflection of Solitary Waves in a magnetized Multicomponent Plasma with Nonisothermal Electrons, Physics of Plasmas. vol. 12 (2009) 072112. 300. R. Kumar, S.K. Mondal, and H.K. Malik, Investigations on Different Modes in a Magnetized Plasma having Positive Ions and Electrons with Density Gradient, Journal of The Korean Physical Society, vol. 54 (2009) 1547. 301. A.K. Aria, H.K. Malik, and K.P. Singh, Excitation of Wakefield in a Rectangular Waveguide: Comparative Study with Different Microwave Pulses, Laser and Particle Beams. vol. 27, (2009) 41. 302. K. Aria and H.K. Malik, Numerical Studies on Wakefield Excited by Gaussian-like Microwave Pulses in a Plasma Filled Waveguide, Optics Communications., vol. 282, (2009) 423. 303. H. K. Malik, Analytical Calculation of Wakefield Generated by Microwave Pulses in a Plasma-filled Waveguide for Electron Acceleration, Journal of Applied Physics, vol. 104, (2008) 053308. 304. H. K. Malik, Soliton Reflection in Magnetized Plasma: Effect of ion Temperature and Nonisothermal Electrons, Physics of 62 Plasmas, vol. 15, (2008) 072105. 305. H. K. Malik, Oscillating Two Stream Instability of a Plasma Wave in a Negative Ion containing Plasma with Hot and Cold Positive Ions, Laser and Particle Beams, vol. 25, (2007) 397. 306. H. K. Malik, Magnetic Field Contribution to Soliton Propagation and Reflection in an Inhomogeneous Plasma, Physics Letters A, vol. 365, (2007) 224. 307. H. K. Malik, Application of Obliquely Interfering TE10 Modes for Electron Energy Gain, Optics Communications, vol. 278, (2007) 387. 308. H. K. Malik, D. K. Singh, and Y. Nishida, On Reflection of Solitary Waves in a magnetized Multicomponent Plasma with Nonisothermal Electrons, Physics of Plasmas., vol. 12, (2009) 072112. 309. R. Kumar, S. K. Mondal and H. K. Malik, Investigations on Different Modes in a Magnetized Plasma having Positive Ions and Electrons with Density Gradient, Journal of The Korean Physical Society, vol. 54, (2009) 1547. 310. K. Aria and H. K. Malik, Wakefield Generation in a Plasma-filled Rectangular Waveguide, The Open Plasma Physics Journal, vol. 1, (2008) 1. 311. K. P. Singh and H. K. Malik, Collimated GeV Electrons from the Ionization of a Low Density Gas by a Laser Pulse in an Intense Magnetic Field, Applied Physics Letters, 93, (2008) 044101. 312. K. P. Singh and H. K. Malik, Resonant enhancement of electron energy by frequency chirp during laser acceleration in an azimuthal magnetic field in a plasma, Laser and Particle Beams, vol. 26, (2008) 363. 313. H. K. Malik, S. Kumar and K. P. Singh, Electron Acceleration in a Rectangular Waveguide filled with Unmagnetized Inhomogeneous Cold Plasma, Laser and Particle Beams, vol. 26, (2008) 197. 314. H. K. Malik, K. P. Singh, S. Kawata, U. Stroth, D. K. Singh, V. K. Jain, Y. Nishida and Y. Nejoh, Reflection of Solitons at Critical Density of Negative Ions: Contribution of Thermal and Gyratory Motions of Ions, IEEE Transactions on Plasma Science, vol. 36, (2008) 738. 315. H. K. Malik and U. Stroth, Nonlinear Solitary Waves in Inhomogeneous Magnetized Warm Plasma with Negative Ions and Nonisothermal Electrons, Plasma Sources Science and Technology, vol. 17, (2008) 035005. 316. K. Aria and H. K. Malik, Studies on Waves and Instabilities in a Plasma Sheath formed on the Outer Surface of Space Craft, Physics of Plasmas, vol. 15, (2008) 043501. 317. D. K. Singh and H. K. Malik, Solitons in Inhomogeneous Magnetized Negative Ion containing Plasma with Two Temperature Nonisothermal Electrons, IEEE Transactions on Plasma Science, vol. 36, (2008) 462. 318. K. P. Singh, D. N. Gupta and H. K. Malik, Effect of Laser Pulse Parameters and Initial Phase on Acceleration of Electrons in acuum, Physica Scripta, vol. 77, (2008) 045401. 319. D. K. Singh and H. K. Malik, Studies on Soliton Energy at Critical and Noncritical Density of Negative Ions in an Inhomogeneous Magnetized Warm Plasma, Physics of Plasmas, vol. 14, (2007) 112103. 320. H. K. Malik and S. Kawata, Soliton Propagation in an Inhomogeneous Plasma at Critical Density of Negative Ions: Effects of Gyratory and Thermal Motions of Ions, Physics of Plasmas, vol. 14, (2007) 102110. 321. H. K. Malik, S. Kumar and Y. Nishida, Electron Acceleration by Laser produced Wake Field: Pulse Shape Effect, Optics Communications, vol. 280, (2007) 417. 322. D. K. Singh and H. K. Malik, Reflection of Nonlinear Solitary Waves (mKdV Solitons) at Critical Density of Negative Ions in a Magnetized Cold Plasma, Plasma Physics and Controlled Fusion, vol. 49, (2007) 1551. 323. H. K. Malik and Y. Nishida, Reflection of an Ion Acoustic Soliton in a Finite Ion Temperature Magnetized Plasma, IEEE Transactions on Plasma Science, vol. 35, (2007) 1046. 324. D. K. Singh and H. K. Malik, Modified Korteweg-deVries Soliton Evolution at Critical Density of Negative Ions in an Inhomogeneous Magnetized Cold Plasma, Physics of Plasmas, vol. 14, (2007) 062113. 325. S. Kumar and H. K. Malik, Electron Acceleration in a Plasma Filled Rectangular Waveguide under Obliquely Applied Magnetic Field, Journal of Plasma Physics, vol. 72, (2006) 983. 326. S. Kumar, H. K. Malik and Y. Nishida, Wake Field Excitation and Electron Acceleration by Triangular and Sawtooth Laser Pulses in a Plasma: An Analytical Approach, Physica Scripta, vol. 74, (2006)525. 327. D. K. Singh and H. K. Malik, Soliton Reflection in a Negative Ion containing Plasma: Effect of Magnetic Field and Ion Temperature, Physics of Plasmas, vol. 13, (2006) 082104. 328. S. Kumar and H. K. Malik, Effect of Negative Ions on Oscillating Two Stream Instability of a Laser driven Plasma Beat Wave in a Homogeneous Plasma, Physica Scripta, vol. 74, (2006) 304. 329. H. K. Malik and K. Singh, Small Amplitude Soliton Propagation in a Weakly Relativistic Two-fluid Magnetized Plasma: Electron Inertia Contribution, IEEE Transactions on Plasma Science, vol. 33, (2005) 1995. 330. S. K. Jawla, S. Kumar and H. K. Malik, Evaluation of Mode Fields in a Magnetized Plasma Waveguide and Electron Acceleration, Optics Communications, vol. 251, (2005) 346. 331. K. Singh, V. Kumar and H. K. Malik, Electron Inertia Contribution to Soliton Evolution in an Inhomogeneous Weakly Relativistic Two-fluid Plasma, Physics of Plasmas, 12, (2005) 072302. 332. K. Singh, V. Kumar and H. K. Malik, Electron Inertia Effect on Small Amplitude Solitons in a Weakly Relativistic Two-fluid Plasma, Physics of Plasmas, vol. 12, (2005) 052103. 333. M. R. Shenoy and N H.K. Malik, Analytical Calculation of Wakefield Generated by Microwave Pulses in a Plasma-filled Waveguide for Electron Acceleration, Journal of Applied Physics, Vol. 104, (2008) 053308. 334. H. K. Malik, Soliton Reflection in Magnetized Plasma: Effect of ion Temperature and Nonisothermal Electrons, Physics of Plasmas, vol. 15, (2008) 072105. 335. H. K. Malik, Oscillating Two Stream Instability of a Plasma Wave in a Negative Ion containing Plasma with Hot and Cold Positive Ions, Laser and Particle Beams, vol. 25, (2007) 397. 63 336. H. K. Malik, Magnetic Field Contribution to Soliton Propagation and Reflection in an Inhomogeneous Plasma, Physics Letters A, vol. 365, (2007) 224. 337. H. K. Malik, Application of Obliquely Interfering TE10 Modes for Electron Energy Gain, Optics Communications, vol. 278, (2007) 387. 338. H. K. Malik, D. K. Singh and Y. Nishida, On Reflection of Solitary Waves in a magnetized Multicomponent Plasma with Nonisothermal Electrons, Physics of Plasmas, vol. 12, (2009) 072112. 339. R. Kumar, S. K. Mondal and H. K. Malik, Investigations on Different Modes in a Magnetized Plasma having Positive Ions and Electrons with Density Gradient, Journal of The Korean Physical Society, vol. 54, (2009) 1547. 340. D. K. Singh and H. K. Malik, Effect of Trapped Electrons on Soliton Energy in an Inhomogeneous Magnetized Multicomponent Plasma, Journal of Physics: Conference Series, vol. 208, (2009) 1. 341. A. K. Aria, H. K. Malik and K. P. Singh, Excitation of Wakefield in a Rectangular Waveguide: Comparative Study with Different Microwave Pulses, Laser and Particle Beams, vol. 27, (2009) 41. 342. K. Aria and H.K. Malik, Numerical Studies on Wakefield Excited by Gaussian-like Microwave Pulses in a Plasma Filled Waveguide, Optics Communications, vol. 282, (2009) 423. 343. K. Aria and H.K. Malik, Wakefield Generation in a Plasma-filled Rectangular Waveguide, The Open Plasma Physics Journal, vol. 1, (2008) 1. 344. K. P. Singh and H. K. Malik, Collimated GeV Electrons from the Ionization of a Low Density Gas by a Laser Pulse in an Intense Magnetic Field, Applied Physics Letters, vol. 93, (2008) 044101. 345. K. P. Singh and H. K. Malik, Resonant enhancement of electron energy by frequency chirp during laser acceleration in an azimuthal magnetic field in a plasma, Laser and Particle Beams, vol 26, (2008) 363. 346. H. K. Malik, S. Kumar and K. P. Singh, Electron Acceleration in a Rectangular Waveguide filled with Unmagnetized Inhomogeneous Cold Plasma, Laser and Particle Beams, vol. 26, (2008) 197. 347. H. K. Malik, K. P. Singh, S. Kawata, U. Stroth, D. K. Singh, V. K. Jain, Y. Nishida and Y. Nejoh, Reflection of Solitons at Critical Density of Negative Ions: Contribution of Thermal and Gyratory Motions of Ions, IEEE Transactions on Plasma Science, vol. 36, (2008) 738. 348. H. K. Malik and U. Stroth, Nonlinear Solitary Waves in Inhomogeneous Magnetized Warm Plasma with Negative Ions and Nonisothermal Electrons, Plasma Sources Science and Technology, vol. 17, (2008) 035005. 349. K. Aria and H. K. Malik, Studies on Waves and Instabilities in a Plasma Sheath formed on the Outer Surface of Space Craft, Physics of Plasmas, vol. 15, (2008) 043501. 350. D. K. Singh and H. K. Malik, Solitons in Inhomogeneous Magnetized Negative Ion containing Plasma with Two Temperature Nonisothermal Electrons, IEEE Transactions on Plasma Science, vol. 36, (2008) 462. 351. K. P. Singh, D. N. Gupta and H. K. Malik, Effect of Laser Pulse Parameters and Initial Phase on Acceleration of Electrons in acuum, Physica Scripta, vol. 77, (2008) 045401. 352. D. K. Singh and H. K. Malik, Studies on Soliton Energy at Critical and Noncritical Density of Negative Ions in an Inhomogeneous Magnetized Warm Plasma, Physics of Plasmas, vol. 14, (2007) 112103. 353. H. K. Malik and S. Kawata, Soliton Propagation in an Inhomogeneous Plasma at Critical Density of Negative Ions: Effects of Gyratory and Thermal Motions of Ions, Physics of Plasmas, vol. 14, (2007) 102110. 354. H. K. Malik, S. Kumar and Y. Nishida, Electron Acceleration by Laser produced Wake Field: Pulse Shape Effect, Optics Communications, vol. 280, (2007) 417. 355. D. K. Singh and H. K. Malik, Reflection of Nonlinear Solitary Waves (mKdV Solitons) at Critical Density of Negative Ions in a Magnetized Cold Plasma, Plasma Physics and Controlled Fusion, vol. 49, (2007) 1551. 356. H. K. Malik and Y. Nishida, Reflection of an Ion Acoustic Soliton in a Finite Ion Temperature Magnetized Plasma, IEEE Transactions on Plasma Science, vol. 35, (2007) 1046. 357. D. K. Singh and H. K. Malik, Modified Korteweg-deVries Soliton Evolution at Critical Density of Negative Ions in an Inhomogeneous Magnetized Cold Plasma, Physics of Plasmas, vol. 14, (2007) 062113. 358. S. Kumar and H.K. Malik, Electron Acceleration in a Plasma Filled Rectangular Waveguide under Obliquely Applied Magnetic Field, Journal of Plasma Physics, vol. 72, (2006) 983. 359. S. Kumar, H.K. Malik and Y. Nishida, Wake Field Excitation and Electron Acceleration by Triangular and Sawtooth Laser Pulses in a Plasma: An Analytical Approach, Physica Scripta, vol. 74, (2006) 525. 360. D. K. Singh and H. K. Malik, Soliton Reflection in a Negative Ion containing Plasma: Effect of Magnetic Field and Ion Temperature, Physics of Plasmas, vol. 13, (2006) 082104. 361. S. Kumar and H. K. Malik, Effect of Negative Ions on Oscillating Two Stream Instability of a Laser driven Plasma Beat Wave in a Homogeneous Plasma, Physica Scripta, vol. 74, (2006) 304. 362. H. K. Malik and K. Singh, Small Amplitude Soliton Propagation in a Weakly Relativistic Two-fluid Magnetized Plasma: Electron Inertia Contribution, IEEE Transactions on Plasma Science, vol. 33, (2005) 1995. 363. S. K. Jawla, S. Kumar and H. K. Malik, Evaluation of Mode Fields in a Magnetized Plasma Waveguide and Electron Acceleration, Optics Communications, vol. 251, (2005) 346. 364. K. Singh, V. Kumar and H. K. Malik, Electron Inertia Contribution to Soliton Evolution in an Inhomogeneous Weakly Relativistic Two-fluid Plasma, Physics of Plasmas, vol. 12, (2005) 072302. 365. K. Singh, V. Kumar and H. K. Malik, Electron Inertia Effect on Small Amplitude Solitons in a Weakly Relativistic Two-fluid Plasma, Physics of Plasmas, vol. 12, (2005) 052103. 366. A. Kumar and A. K. Sarma, Femto-second Soliton switching in a three-core coupler, Jpn. J. Appl. Phys., Vol. 44, (2005) 498. 367. Ajit Kumar and A. K. Sarma, Soliton switching in a three-core coupler with nonlinear saturation, Asian J. Phys., Vol. 14, (2005) 339. 368. P. Singh, S. Mirza, A. Kumar, C. Shakher and R. S. Sirohi, Temperature and Temperature profile of an axisymmetric and a 2D 64 flame using digital photography, J. Holography and Speckles, Vol. 2, (2005) 84. 369. A. K. Sarma and A. Kumar, Phase-induced Soliton switching in a fiber nonlinear coupler, Optical Engineering, Vol. 46(11), (2007) 115005. 370. A. Kumar, A few- and sub-cycle pulse evolution equation in a cubic non-linear medium, Theor. Math. Phys., Vol. 160(1), (2009) 968. 371. A. Kumar and V. Mishra, Single-cycle pulse propagation in a cubic medium with delayed Raman response, Phys. Rev. A, Vol. 79, (2009) 063807. 372. A. K. Sarma and A. Kumar, Perturbative effects on ultra-short soliton self-switching, Pramana, Vol. 69, (2007) 575. 373. K. Saha and A. Kumar, A Bose–Einstein condensate in a double-well and periodic potential: a variational study, J. Phys. A: Math. Theor. Vol. 42, (2009) 315303. 374. N. Singh and A. Sinha, Optical image encryption using fractional Fourier transform and chaos”, Opt. Laser Engg., vol.46, (2008) 117. 375. A. Sinha, Fractional Fourier transform based key exchange for optical asymmetric key cryptography, WSEAS Transactions on Computers,vol. 7, (2008) 52. 376. A. Sinha and K. Singh, The design of a composite wavelet matched filter for face recognition using breeder genetic algorithm, Opt. Laser Engg., vol. 43, (2005) 1277. 377. A. Sinha and K. Singh, Image Encryption using fractional Fourier Transform and jigsaw Transform in Image bit-planes, Opt. Engg., vol. 44, (2005) 57001. 378. P. Kumar, A. Kumar, J. Joseph, and K. Singh, Impulse attack free double-random-phase encryption scheme with randomized lens-phase functions, Opt. Lett., vol. 34, (2009) 331. 379. P. Kumar, J. Joseph, and K. Singh, Impulse attack-free four random phase mask encryption based on a 4-f optical system, Appl. Opt., vol. 48, (2009) 2356. 380. B. Das, J. Joseph, and K. Singh, Improved data search by zero-order (dc) peak filtering in a defocused volume holographic content-addressable memory, Appl. Opt., vol. 48, (2009) 55. 381. B. Das, J. Joseph, and K. Singh, Phase-image based sparse-gray-level data pages for holographic data storage, Appl. Opt., vol. 48, (2009) 5240. 382. B. Das, J. Joseph, and K. Singh, Material saturation in photopolymer holographic data recording and its effects on bit-errorrate and content-addressable search, Opt. Commun., vol. 282, (2009) 177. 383. B. Das, J. Joseph, and K. Singh, Phase modulated gray-scale digital holographic data storage, Opt. Commun., vol. 282, (2009) 2147. 384. B. Das, S. Vyas, J. Joseph, P. Senthilkumaran, and K. Singh, Transmission type twisted nematic liquid crystal display for three gray-level phase-modulated holographic data storage systems, Opt. Lasers Eng., vol. 47, (2009) 1150. 385. M. Singh, A. Kumar, and K. Singh, Securing multiplexed information by in-plane rotation of random phase diffusers constituting a sandwich diffuser placed in the Fourier plane of a double random phase encoding system, Opt. Laser Technol., vol. 41, (2009) 32. 386. M. Singh,A. Kumar ,and K. Singh, Encryption by using matrix-added, or matrix-multiplied input images placed in the input plane of a double random phase encoding geometry, Opt. Lasers Eng., vol. 47, (2009) 1293. 387. M. Singh, A. Kumar, and K. Singh, Multiplexing in optical encryption by using an aperture system and a rotating sandwich random phase diffuser in the Fourier plane, Opt. Lasers Engn., vol. 46, (2008) 243. 388. M. Singh, A. Kumar, and K. Singh, Secure optical system that uses fully phase-based encryption and lithium niobate crystal as phase contrast filter for decryption, Opt. Laser Technol., vol. 40, (2008) 619. 389. M. Singh, A. Kumar,and K. Singh, Optical security system using jigsaw transforms of the second random phase mask and the encrypted image in a double random phase encoding system, Opt. Lasers Engn., vol. 46, (2008) 763. 390. A. Dwivedi, J. Xavier, J. Joseph, and K. Singh, Formation of All the Fourteen Bravais Lattices of 3-D Photonic Crystal Structures by a Dual Beam Multiple-Exposure Holographic Technique, Appl. Opt., vol. 47, (2008) 1973. 391. M. Joshi, Chardrashakher, and K. Singh, Colour image encryption and decryption for twin images in fractional Fourier domain, Opt. Commun., vol. 281, (2008) 5713. 392. M. Joshi, Chardrashakher, and K. Singh, Image encryption and decryption using fraction Fourier transform and radial Hilbert transform, Opt. Lasers Eng., vol. 46, (2008) 522. 393. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of a vortex carrying beam with Gaussian background by an apertured system in presence of coma, Opt. Commun., vol. 281, (2008) 923. 394. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of a singular beam in the presence of spherical aberration and defocusing, Optik, vol. 119, (2008) 459. 395. R. K. Singh, P. Senthilkumaran, and K. Singh, Effect of primary spherical aberration on high numerical aperture focusing of a Laguerre Gaussian beam, J. Opt. Soc. Am A, vol. 25, (2008) 1307. 396. R. K. Singh, P. Senthilkumaran, and K. Singh, Effect of primary coma on the focusing of a Laguerre-Gaussian beam by a high numerical aperture system; vectorial diffraction theory, J. Opt. A: Pure Appl. Opt., vol. 10, (2008) 075008. 397. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of linearly-, and circularly polarized Gaussian background vortex beams by a high numerical aperture system afflicted with third-order astigmatism, Opt. Commun., vol. 281, (2008) 5939. 398. P. Kumar, J. Joseph, and K. Singh, Double random phase encryption with in-plane rotation of a modified Lohmann’s secondtype system in the anamorphic fractional Fourier domain, Opt. Eng., vol. 47, (2008) 117001. 399. B. Das, J. Joseph, and K. Singh, Performance analysis of content-addressable search and bit-error rate characteristics of a defocused volume holographic data storage system, Appl. Opt., vol. 46 (2007) 5461. 400. A. Nelleri, J. Joseph, and K. Singh, Digital Fresnel field encryption for three-diemnsional information security, Opt. Engn., 65 vol. 46, (2007) 045801. 401. M. Joshi, Chardrashakher, and K. Singh, Colour image encryption and decryption using fractional Fourier transform, Opt. Commun., vol. 276, (2007) 35. 402. R. K. Singh, P. Senthilkumaran, and K. Singh, Influence of astigmatism and defocusing on the focusing of a singular beam, Opt. Commun., vol. 270, (2007) 128. 403. R. K. Singh, P. Senthilkumaran, and K. Singh, Effect of coma on the focusing of an apertured singular beam, Opt. Lasers Engn. , vol.45, (2007) 488. 404. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of a vortex carrying beam with Gaussian background by a lens in the presence of spherical aberration and defocusing, Opt. Lasers Engn., vol. 45, (2007) 773. 405. R. K. Singh, P. Senthilkumaran, and K. Singh, The effect of astigmatism on the diffraction of a vortex carrying beam with a Gaussian background, J. Opt. A: Pure Appl. Opt., vol. 9, (2007) 543. 406. A. Nelleri, U. Gopinathan, J. Joseph, and K. Singh, Three-dimensional object recognition from digital Fresnel hologram by wavelet matched filtering, Opt. Commun., vol. 259, (2006) 499. 407. A. Nelleri, J. Joseph and K. Singh, Recognition and classification of three-dimensional phase objects by digital Fresnel holography, Appl. Opt., vol. 45, (2006) 4046. 408. S. Manhas, M. K. Swami, P. Buddhiwant, N. Ghosh, P. K. Gupta and K. Singh, Mueller matrix approach for determination of optical rotation in chiral turbid media in backscattering geometry, Opt. Express, vol. 14, (2006) 190. 409. S. Manhas, M. K. Swami, P. Buddhiwant, N. Ghosh, P. K. Gupta and K. Singh, Mueller matrix approach for discriminating optical rotation, Opt. Phot. News Dec., vol. 17, (2006) 41. 410. R. John, J. Joseph, and K. Singh, A new balanced-modulation code for phase-image-based holographic data storage system, J. Opt. A Pure and Appl. Opt., vol. 7, (2005) 391. 411. R. John, J. Joseph, and K. Singh, An input-data page modulation scheme for content-addressable holographic digital data storage, Opt. Commun, vol. 249, (2005)387. 412. R. John, J. Joseph, and K. Singh, Phase-image-based content-addressable holographic data storage with security, J. Opt. A Pure and Appl. Opt., vol. 7, (2005) 123. 413. R. John, J. Joseph and K. Singh, Content-addressable holographic data storage using hybrid ternary modulation in a Twisted Nematic Liquid Crystal Spatial Light Modulator, Opt. Rev., vol. 12, (2005) 155. 414. R. John, J. Joseph and K. Singh, Holographic data storage using phase modulated pixels, Opt. Lasers. Engg., vol. 42, (2005) 183. 415. A. Mishra, A. Kumar, S. Sanyal, S. Schramm, Kaon and antikaon optical potnetials in isospin asymmetric hyperonic matter, Eur. Phys. J. A, vol. 41, (2009) 203. 416. A. Mishra and A. Mazumdar, D mesons in asymmetric nuclear matter, Phys. Rev. C, vol. 79, (2009) 024908. 417. A. Mishra, H. Mishra, LOFF and breached pairing with cold atoms, Eur. Phys. Jour. D, vol. 53, (2009) 75. 418. B. Chatterjee, H. Mishra and A. Mishra, Relativistic BCS-BEC crossover - A variational approach, Phys. Rev. D, vol. 79, (2009) 014003. 419. S. A. Silotri, D. Angom, H. Mishra and A. Mishra, Pairing in spin polarized two species fermionic mixtures with mass asymmetry, Eur. Phys. J. D, vol. 49, (2008) 383. 420. A. Mishra, S. Schramm and W. Greiner, Kaons and antikaons in asymmetric nuclear matter, Phys. Rev. C, vol. 78, (2008) 024901. 421. A. Mishra and S. Schramm, Isospin dependent kaon and antikaon optical potentials in dense hadronic matter, Phys. Rev. C, vol. 74, (2006) 064904. 422. A. Mishra and H. Mishra, Color superconductivity with determinant interaction in strange quark matter, Phys. Rev. D, vol. 74, (2006) 054024. 423. A. Mishra and H. Mishra, Color superconducting 2SC+s quark matter and gapless modes at finite temperatures, Phys Rev D, vol. 71, (2005) 074023. 424. B. D. Gupta and R. K. Verma, Surface plasmon resonance-based fiber optic sensors: Principle, probe designs, ansd some applications, Journal of Sensors, Vol. 2009, 12 pages, Article ID 979761. 425. S. K. Srivastava, R. K. Verma and B. D. Gupta, Theoretical modeling of a localized surface plasmon resonance based intensity modulated fiber optic refractive index sensor, Applied Optics, vol. 48, (2009) 3796. 426. S. Singh, R. K. Verma and B. D. Gupta, Surface plasmon resonance based fiber optic sensor with symmetric and asymmetric metallic coatings: a comparative study, Sensors & Transducers, vol. 100, (2009) 116. 427. R. Jha, R. K. Verma and B. D. Gupta, Surface plasmon resonance based tapered fiber optic sensor: sensitivity enhancement by introducing a Teflon layer between core and metal layer, Plasmonics, vol. 3, (2008) 151. 428. Y. S. Dwivedi, A. K. Sharma and B. D. Gupta, Influence of design parameters on the performance of a surface plasmon based fiber optic sensor, Plasmonics, vol. 3, (2008) 79. 429. R. K. Verma and B. D. Gupta, Theoretical modeling of a bi-dimensional U-shaped surface plasmon resonance based fiber optic sensor for sensitivity enhancement, Journal of Physics D: Applied Physics, vol. 41, (2008) 95106. 430. R. K. Verma, A. K. Sharma and B. D. Gupta, Surface plasmon resonance based tapered fiber optic sensor with different taper profiles, Optics Communications, vol. 281, (2008) 1486. 431. R. K. Verma, A. K. Sharma and B. D. Gupta, Modeling of tapered fiber-optic surface plasmon resonance sensor with enhanced sensitivity, IEEE Photonics Technology Letters, vol. 19, (2007) 1786. 432. A. K. Sharma, Rajan and B. D. Gupta, Fiber optic sensors based on surface plasmon resonance: A comprehensive review, IEEE Sensors Journal, vol. 7, (2007) 1118. 433. Rajan, A. K. Sharma and B. D. Gupta, Fiber optic sensor based on long-range surface plasmon resonance: a theoretical 66 analysis, Journal of Optics A: Pure & Applied Optics, vol. 9, (2007) 682. 434. A. K. Sharma and B. D.Gupta, Comparison of performance parameters of conventional and nano-plasmonic fiber optic sensors, Plasmonics, vol. 2, (2007) 51. 435. Y. S. Dwivedi, A. K. Sharma and B. D.Gupta, Influence of skew rays on the sensitivity and signal-to-noise ratio of a fiber-optic surface plasmon resonance sensor: A theoretical study, Applied Optics, vol. 46, (2007) 4563. 436. A. K. Sharma, Rajan and B. D. Gupta, Influence of dopants on the performance of a fiber optic surface plasmon resonance sensor, Optics Communications, vol. 274, (2007) 320. 437. A. K. Sharma and B. D. Gupta, On the performance of different bimettalic combinations in surface plasmon resonance based fiber optic sensors, Journal of Applied Physics, vol. 101, (2007) 093111. 438. Rajan, S. Chand and B. D. Gupta, Surface plasmon resonance based fiber-optic sensor for the detection of pesticide, Sensors and Actuators B, vol. 123, (2007) 661. 439. A. K. Sharma and B. D.Gupta, Metal-semiconductor nanocomposite layer based optical fibre surface plasmon resonance sensor, Journal of Optics A: Pure & Applied Optics, vol. 9, (2007) 180. 440. Rajan, S. Chand and B. D. Gupta, Fabrication and characterization of a surface plasmon resonance based fiber-optic sensor for bittering component – naringin, Sensors and Actuators B, vol. 115, (2006) 344. 441. A. K. Sharma and B. D.Gupta, Theoretical model of a fiber optic remote sensor based on surface plasmon resonance for temperature detection, Optical Fiber Technology, vol. 12, (2006) 87. 442. A. K. Sharma and B. D.Gupta, Influence of temperature on the sensitivity and the signal-to-noise ratio of a fiber optic surface plasmon resonance sensor, Applied Optics, vol. 45, (2006) 151. 443. A. K. Sharma and B. D.Gupta, Fibre-optic sensor based on surface plasmon resonance with Ag-Au alloy nanoparticle films, Nanotechnology, vol. 17, (2006) 124. 444. A. K. Sharma and B. D. Gupta, On the sensitivity and signal to noise ratio of a step index fiber optic surface plasmon resonance sensor with bimetallic layers, Optics Communications, vol. 245, (2005) 159. 445. B. D. Gupta and A. K. Sharma, Sensitivity evaluation of a multi-layered surface plasmon resonance-based fiber optic sensor: a theoretical study, Sensors and Actuators B, vol. 107, (2005) 40. 446. A. K. Sharma and B. D.Gupta, Fiber optic sensor based on surface plasmon resonance with nanoparticle films, Photonics and Nanostructures – Fundamentals and Applications, vol. 3, (2005) 30. 447. N. Saini and A. Sinha, Key management of the double random phase encoding method using public key encryption, Opt. Laser Engg., vol. 48, (2010) 329. 448. N. Singh and A. Sinha, Chaos based secure communication system using logistic map, Opt.Laser Engg., vol. 48, (2010) 398. 449. N. Saini and A. Sinha, Optics based biometric encryption using log polar transform, Optics Communication, vol. 283, (2010) 34. 450. N. Singh and A. Sinha, Optical image encryption using fractional Fourier transform and chaos, Opt. Laser Engg., vol.46, (2008) 117. 451. N. Singh and A. Sinha, Optical image encryption using Hartley transform and logistic map, Opt. Commun., vol. 282, (2009) 1104. 452. N. Singh and A. Sinha, Gyrator transform-based optical image encryption using chaos, Opt. Laser Engg., vol.47, (2009) 539. 453. A. Sinha, Fractional Fourier transform based key exchange for optical asymmetric key cryptography, WSEAS Transactions on Computers, vol.7, (2008) 52. 454. A. Sinha and K. Singh, The design of a composite wavelet matched filter for face recognition using breeder genetic algorithm, Opt. Laser Engg., vol. 43, (2005) 1277. 455. A. Sinha and K. Singh, Image Encryption using fractional Fourier Transform and jigsaw Transform in Image bit-planes, Opt. Engg., vol. 44, (2005) 57001. 456. M. Joshi, and K. Singh, Simultaneous encryption of a color and a gray-scale image using byte-level encoding based on single-channel double random-phase encoding architecture in fractional Fourier domain, Opt. Eng., vol. 50, (2011) 047007. 457. P. Kumar, J. Joseph, and K. Singh, Optical image encryption using a jigsaw transform for silhouette removal in interferencebased methods and decryption with a single spatial light modulator, Appl. Opt., vol. 50, (2011) 1805. 458. J. Joseph, A. Bhagatji, and K. Singh, Content-addressable holographic data storage system for invariant pattern recognition of gray-scale images, Appl. Opt., vol. 49, (2010) 471. 459. B. Das, J. Joseph, and K. Singh, Reliability of content-addressable data search in a defocused volume holographic data storage system, Appl. Opt., vol. 49, (2010) 781. 460. R. K. Singh, P. Senthilkumaran, and K. Singh, Optical transfer function of an optical system with a vortex phase mask in the presence of primary aberrations, Opt. Laser Technol., vol. 42, (2010) 120. 461. A. Nelleri, J. Joseph, and K. Singh, Securing complex and multi-plane data in a lens less digital holographic information system that uses position-phase-shifting geometry, Opt. Lasers Technol., vol. 42, (2010) 366. 462. A. Nelleri, J. Joseph, and K. Singh, Phase reconstruction in lensless digital in-line holographic microscopy, Opt. Lasers Eng., vol. 48, (2010) 27. 463. M. Joshi, Chardrashakher, and K. Singh, Image encryption using radial Hilbert transform filter bank as an additional key in the modified double random fractional Fourier encoding architecture, Opt. Lasers Eng., vol. 48, (2010) 605. 464. M. Joshi, Chardrashakher, and K. Singh, Fractional Fourier plane image encryption technique using radial Hilbert-, and Jigsaw transform, Opt. Laser Eng., vol. 48, (2010) 754. 465. M. Joshi, Chardrashakher, and K. Singh, Fractional Fourier transform based image multiplexing and encryption technique for four-color images using input images as keys, Opt. Commun., vol. 283, (2010) 2496. 67 466. P. Kumar, J. Joseph, and K. Singh, Optical image encryption based on interference under convergent random illumination, J. Opt. (IOP), vol. 12, (2010) 095402. 467. P. Kumar, J. Joseph, and K. Singh, Holographic encryption system in the Fresnel domain with convergent random illumination, Opt. Engn., vol. 49, (2010) 095803. 468. P. Kumar, A. Kumar, J. Joseph, and K. Singh, Impulse attack free double-random-phase encryption scheme with randomized lens-phase functions, Opt. Lett., vol. 34, (2009) 331. 469. P. Kumar, J. Joseph, and K. Singh, Impulse attack-free four random phase mask encryption based on a 4-f optical system, Appl. Opt., vol. 48, (2009) 2356. 470. B. Das, J. Joseph, and K. Singh, Improved data search by zero-order (dc) peak filtering in a defocused volume holographic content-addressable memory, Appl. Opt., vol. 48, (2009) 55. 471. B. Das, J. Joseph, and K. Singh, Phase-image based sparse-gray-level data pages for holographic data storage, Appl. Opt. 48, (2009) 5240. 472. B. Das, J. Joseph, and K. Singh, Material saturation in photopolymer holographic data recording and its effects on bit-errorrate and content-addressable search, Opt. Commun., vol. 282, (2009) 177. 473. B. Das, J. Joseph, and K. Singh, Phase modulated gray-scale digital holographic data storage, Opt. Commun., vol. 282, (2009) 2147. 474. B. Das, S. Vyas, J. Joseph, P. Senthilkumaran, and K. Singh, Transmission type twisted nematic liquid crystal display for three gray-level phase-modulated holographic data storage systems, Opt. Lasers Eng., vol. 47, (2009) 1150. 475. M. Singh, A. Kumar, and K. Singh, Securing multiplexed information by in-plane rotation of random phase diffusers constituting a sandwich diffuser placed in the Fourier plane of a double random phase encoding system, Opt. Laser Technol., vol. 41, (2009) 32. 476. Madan Singh,Arvind Kumar ,and Kehar Singh, “Encryption by using matrix-added, or matrix-multiplied input images placed in the input plane of a double random phase encoding geometry,” Opt. Lasers Eng., vol. 47, (2009) 1293. 477. M. Singh, A. Kumar and K. Singh, Encryption and decryption using a sandwich phase diffuser made by using two speckle patterns and placed in the Fourier plane: Simulation results, Optik, vol. 120, (2009) 916. 478. M. Joshi, C. Shakher, and K. Singh, Phase image encryption of colored images using double random phase encoding technique in HSV color space, Opt. Review, vol. 16, (2009) 511. 479. M. Joshi, C. Shakher, and K. Singh, Logarithms-based RGB image encryption in the fractional Fourier domain: a non-linear approach, Opt. Laser. Eng., vol. 47, (2009) 721. 480. R. K. Singh, P. Senthilkumaran, and K. Singh, Tight focusing of a vortex beam in presence of primary astigmatism, J. Opt. Soc. Am. A, vol. 26, (2009) 576. 481. R. K. Singh, P. Senthilkumaran, and K. Singh, Structure of a tightly focused vortex beam in the presence of primary coma, Opt. Commun., vol. 282, (2009) 1501. 482. R. K. Singh, P. Senthilkumaran, and K. Singh, Tight focusing of linearly and circularly polarized vortex beams; effect of thirdorder spherical aberration, Opt. Lasers. Eng., vol. 47, (2009) 831. 483. A. Nelleri, J. Joseph, and K. Singh, Error analysis for a lens-less, in-line digital holographic complex information security system based on double random phase encoding, Opt. Lasers Eng., vol. 47, (2009) 885. 484. A. Nelleri, J. Joseph, and K. Singh, Lens less complex data encoding for digital holographic whole information security, Opt. Eng., vol. 47, (2008) 115801. 485. M. Singh, A. Kumar, and K. Singh, Multiplexing in optical encryption by using an aperture system and a rotating sandwich random phase diffuser in the Fourier plane, Opt. Lasers Engn., vol. 46, (2008) 243. 486. M. Singh, A. Kumar, and K. Singh, Secure optical system that uses fully phase-based encryption and lithium niobate crystal as phase contrast filter for decryption, Opt. Laser Technol., vol. 40, (2008) 619. 487. M. Singh, A. Kumar,and K. Singh, Optical security system using jigsaw transforms of the second random phase mask and the encrypted image in a double random phase encoding system, Opt. Lasers Engn., vol. 46, (2008) 763. 488. A. Dwivedi, J. Xavier, J. Joseph, and K. Singh, Formation of All the Fourteen Bravais Lattices of 3-D Photonic Crystal Structures by a Dual Beam Multiple-Exposure Holographic Technique, Appl. Opt., vol. 47, (2008) 1973. 489. M. Joshi, Chardrashakher, and K. Singh, Colour image encryption and decryption for twin images in fractional Fourier domain, Opt. Commun., vol. 281, (2008) 5713. 490. M. Joshi, Chardrashakher, and K. Singh, Image encryption and decryption using fraction Fourier transform and radial Hilbert transform, Opt. Lasers Eng., vol. 46, (2008) 522. 491. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of a vortex carrying beam with Gaussian background by an apertured system in presence of coma, Opt. Commun., vol. 281 (2008) 923. 492. R. K. Singh, P. Senthilkumaran, and K. Singh, Focusing of a singular beam in the presence of spherical aberration and defocusing, Optik, vol. 119, (2008) 459. 493. R. K. Singh, P. Senthilkumaran, and K. Singh, Effect of primary spherical aberration on high numerical aperture focusing of a Laguerre Gaussian beam, J. Opt. Soc. Am A, vol. 25, (2008) 1307. 494. R. K. Singh, P. Senthilkumaran, and K. Singh, Effect of primary coma on the focusing of a Laguerre-Gaussian beam by a high numerical aperture system; vectorial diffraction theory, J. Opt. A: Pure Appl. 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Senthilkumaran and K. Singh, Effect of coma on the focusing of an apertured singular beam, Opt. Lasers Engn., vol. 45, (2007) 488. 501. R. K. Singh, P. Senthilkumaran and K. Singh, Focusing of a vortex carrying beam with Gaussian background by a lens in the presence of spherical aberration and defocusing, Opt. Lasers Engn., vol. 45, (2007) 773. 502. R. K. Singh, P. Senthilkumaran and K. Singh, The effect of astigmatism on the diffraction of a vortex carrying beam with a Gaussian background, J. Opt. A: Pure Appl. Opt., vol. 9 (2007) 543. 503. A. Nelleri, U. Gopinathan, J. Joseph and K. Singh, Three-dimensional object recognition from digital Fresnel hologram by wavelet matched filtering, Opt. Commun., vol. 259, (2006) 499. 504. A. Nelleri, J. Joseph and K. Singh, Recognition and classification of three-dimensional phase objects by digital Fresnel holography, Appl. Opt., vol. 45, (2006) 4046. 505. S. Manhas, M. K. Swami, P. Buddhiwant, N. Ghosh, P. K. Gupta and K. Singh, Mueller matrix approach for determination of optical rotation in chiral turbid media in backscattering geometry, Opt. Express, vol. 14, (2006) 190. 506. S. Manhas, M. K. Swami, P. Buddhiwant, N. Ghosh, P. K. Gupta and K. Singh, Mueller matrix approach for discriminating optical rotation, Opt. Phot. News, vol. 17, (2006) 41. 507. R. John, J. Joseph and Kehar Singh, A new balanced-modulation code for phase-image-based holographic data storage system, J. Opt. A Pure and Appl. Opt., vol. 7, (2005) 391. 508. R. John, J. Joseph, and K. Singh, An input-data page modulation scheme for content-addressable holographic digital data storage”, Opt. Commun, vol. 249, (2005) 387. 509. R. John, J. Joseph and K. Singh, Phase-image-based content-addressable holographic data storage with security, J. Opt. A Pure and Appl. Opt., vol. 7, (2005) 123. 510. R. John, J. Joseph and . Singh, Content-addressable holographic data storage using hybrid ternary modulation in a Twisted Nematic Liquid Crystal Spatial Light Modulator, Opt. Rev., vol. 12, (2005) 155. 511. R. John, J. Joseph and K. Singh, Holographic data storage using phase modulated pixels, Opt. Lasers. Engg., vol. 42, (2005) 183. 512. S. A. Silotri, D. Angom, H. Mishra and A. Mishra, Pairing in spin polarized two species fermionic mixtures with mass asymmetry, Eur. Phys. J. D, vol. 49, (2008) 383. 513. A. Mishra, S. Schramm and W. Greiner, Kaons and antikaons in asymmetric nuclear matter, Phys. Rev. C, vol. 78, (2008) 024901. 514. A. Mishra and S. Schramm, Isospin dependent kaon and antikaon optical potentials in dense hadronic matter, Phys. Rev. C, vol. 74, (2006) 064904. 515. A. Mishra and H. Mishra, Color superconductivity with determinant interaction in strange quark matter, Phys. Rev. D, vol. 74, (2006) 054024. 516. A. Mishra, H. 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Marin, and J.P.Meunier, Side Polished Optical Fiber Grating Based Refractive Index Sensors Utilizing The Pure Surface Plasmon Polaritons, IEEE Journ. Lightwave Technol., vol. 26, (2008) 1980. 523. Y. S. Dwivedi, A. K. Sharma and B. D. Gupta, Influence of design parameters on the performance of a surface plasmon based fiber optic sensor, Plasmonics, vol. 3, (2008) 79. 524. R. K. Verma and B. D. Gupta, Theoretical modeling of a bi-dimensional U-shaped surface plasmon resonance based fiber optic sensor for sensitivity enhancement, Journal of Physics D: Applied Physics, vol. 41, (2008) 095106. 525. R. K. Verma, A. K. Sharma and B. D. Gupta, Surface plasmon resonance based tapered fiber optic sensor with different taper profiles, Optics Communications, vol. 281, (2008) 1486. 526. R. K. Verma, A. K. Sharma and B. D. Gupta, Modeling of tapered fiber-optic surface plasmon resonance sensor with enhanced sensitivity, IEEE Photonics Technology Letters, vol. 19, (2007) 1786. 527. A. K. 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Pant, Visible Regime Application of Zone Plate Coded Incoherent Holography, Optics Communications, vol. 282, (2009) 2796. 559. S. K. Mishra, R. Bhatt, D. Mohan, A. K, Gupta, and A. Sharma, Differential modal Zernike wavefront sensor employing CGH: A Proposal, Applied Optics, vol. 33, (2009) 6458. 560. M. K. Tewari, K. K. Gupta, H. C. Gupta, D. C. Dube, Electromagnetic Mode Density at the Band Edge of One Dimensional Graded Periodic Dielectric Structure, International Journal of RF and Microwave Computer Aided Engineering, vol. 15, (2005) 69. 561. H. C. Gupta, V. Sharma, A lattice dynamical investigation of the Raman and the infrared wavenumbers of the orthorhombic R2BaCuO5 (R=Y, Ho, Gd) oxides, Journal of Raman Spectroscopy, vol. 36, (2005) 83. 70 562. H. C. Gupta, V. Sharma, U. Tripathi, N. Rani, Zone center frequencies of the orthorhombic NdMnO3 perovskite, J. Phys. Chem. Solids, vol. 66, (2005) 1314. 563. H. C. Gupta, U. Tripathi, Phonons at the Zone center for NaAlH4, J. Phys. Chem. Solids, vol. 67, (2006) 2536. 564. M. K. Tewari, K. K. Gupta, H. C. Gupta, D. C. Dube, Photonic band gap crystals on magnetic dielectric for microwave frequency applications, Proc. of SPIE- The International Society for Optical Engineering, vol. 6182, (2006) 27. 565. H. C. Gupta, V. Sharma, Lattice dynamic investigation of the Raman and infrared wave-numbers of orthorhombic R2BaNiO5 (R=Y,Gd ) oxides in Immm structure, J. Raman Spectroscopy, vol. 38, (2007) 245. 566. H. C. Gupta, N. Rani, A lattice dynamical investigation of the Raman and the infrared frequencies of the cubic Y2Ru2O7 pyrochlore, J. Phys. Chem. Solids, vol. 68 (2007) 1293. 567. H. C. Gupta, V. Sharma, Lattice dynamics of tetragonal R2BaCuO5 (R=La,Nd) oxides in P4/mbm structure, J.Raman Spectroscopy, vol. 38, (2007) 885. 568. H. C. Gupta and V. Sharma, Lattice dynamics of tetragonal Nd2BaZnO5, J.Raman Spectroscopy, vol. 38, (2007) 1554. 569. H. C. Gupta, N. Rani, Zone center phonons in lanthanum chromite, PHONONS 2007, July 15- 20, Paris, France (2007) 570. H. C.Gupta and V. Sharma, Interatomic forces in Pnma, Immm, P4/mbm and I4/mcm phase of R2BaMO5(R= Yttrium or lanthanides, M=Ni, Cu or Zn), J. Physics, vol. 92, (2007) 012163. 571. M. K. Singh, H. M. Jang, H. C. Gupta and R. S. Katiyar; Polarized Raman scattering and lattice eigenmodes of antiferromagnetic NdFeO3, J. Raman Spectroscopy, vol. 39, (2008) 842. 572. H. C. Gupta and U. Tripathi, Zone center phonons of the orthorhombic RMnO3 (R = Pr, Eu, Tb, Dy, Ho), PMC Physics B, vol. 1, (2008) 9. 573. B. K. Sharma, A. K. Gupta, N. Khare, S. K. Dhawan and H. C. Gupta, Synthesis and characterization of polyaniline- ZnO composite and its dielectric behaviour, Synthetic Metals, vol. 159, (2009) 391. 574. B. K. Sharma, N. Khare, S. K. Dhawan and H. C. Gupta, Dielectric properties of nano ZnO polyaniline composite in the microwave frequency range, J. Alloys Compounds, vol. 477, (2009) 370. 575. B. K. Sharma, N. Khare, R. Sharma, S. K. Dhawan, V. D. Vankar and H.C.Gupta, Dielectric behaviour of polyaniline CNTs composite in microwave region, Composite Science and Technology, vol. 69, (2009) 1932. 576. H. C. Gupta, J. Singh, S. Kumar, Karandeep and N. Rani, A lattice dynamical investigation of the Raman and the infrared frequencies of the Dy2Ti2O7 pyrochlore spin ice compound, J. Mol. Structure, vol. 937, (2009) 136. 577. H. C. Gupta, J. Singh, S. Kumar, Karandeep and N. Rani, A lattice dynamical investigation of the Raman and the infrared wavenumbers of Ba2RESbO6 (RE=Sm,Y), Physica B, Vol. 405, (2010) 410. 578. H. C. Gupta and Karandeep, A Lattice Dynamical Investigation of the Raman and the Infrared Wavenumbers of Sr2LnTaO6(Ln=Nd,Gd,Dy,Er,Yb), J. Mol. Structure, vol. 980, (2010) 214. 579. H. C. Gupta, Archana and V. Luthra, A lattice dynamical investigation of the Raman and the infrared wavenumbers of SBT (SrBi2Ta2O9), J. Mol. Structure, vol. 984, (2010) 204. 580. H. C. Gupta, Archana and V. Luthra, Lattice vibrations of ABi2Nb2O9 crystals (A=Ca, Sr, Ba), Vibrational Spectroscopy, vol. 56, (2011) 235. 581. H. C. Gupta, Karandeep and P. ashdhir, Lattice dynamical study of Sr2B’UO6 (B’=Ni, Co) double perovskites, Physica B: Condensed Metter, vol. 406, (2011) 2811. 582. H. C. Gupta, Archana and V. Luthra, Lattice dynamical investigations for Raman and infrared frequencies of Bi2WO6, J. Mol. Structure, (2011) 6. 583. H. C. Gupta and S. Kumar, Ab-initio study of structural, bonding and vibrational properties of AGaO2(A=Ag,Cu) delafossites, Comp. and Theo. Chemistry (2011). 584. H. C. Gupta and V. Sharma, A lattice dynamical investigation of the Raman and the infrared wavenumbers of the orthorhombic R2BaCuO5 (R=Y, Ho, Gd) oxides, Journal of Raman Spectroscopy, vol. 36, (2005) 83. 585. H. C. Gupta, V. Sharma, U. Tripathi, and N. Rani, Zone center frequencies of the orthorhombic NdMnO3 perovskite, J. Phys. Chem. Solids vol. 66, (2005) 1314. 586. H. C. Gupta, and U. Tripathi, Phonons at the Zone center for NaAlH4, J. Phys. Chem. Solids, vol. 67, (2006) 2536. 587. H. C. Gupta and V. Sharma, Lattice dynamic investigation of the Raman and infrared wave-numbers of orthorhombic R2BaNiO5 ( R=Y,Gd ) oxides in Immm structure, J. Raman Spectroscopy, vol. 38, (2007) 245. 588. H. C. Gupta and N. Rani, A lattice dynamical investigation of the Raman and the infrared frequencies of the cubic Y2Ru2O7 pyrochlore. J. Phys. Chem.Solids, vol. 68, (2007) 1293. 589. H. C. Gupta and V. Sharma, Lattice dynamics of tetragonal R2BaCuO5 (R=La, Nd) oxides in P4/mbm structure, J. Raman Spectroscopy, vol. 38, (2007) 885. 590. H. C. Gupta and V. Sharma, Lattice dynamics of tetragonal Nd2BaZnO5, J. Raman Spectroscopy, vol. 38, (2007) 1554. 591. H. C. Gupta and V. Sharma, Interatomic forces in Pnma, Immm, P4/mbm and I4/mcm phase of R2BaMO5(R= Yttrium or lanthanides, M=Ni,Cu or Zn), J. Physics, Conference Series, vol. 92, (2007) 012163. 592. M. K. Singh, H. M. Jang, H. C. Gupta and R. S. Katiyar, Polarized Raman scattering and lattice eigenmodes of antiferromagnetic NdFeO3, J. Raman Spectroscopy, vol. 39, (2008) 842. 593. H. C. Gupta, and U. Tripathi, Zone center phonons of the orthorhombic RMnO3 (R = Pr, Eu, Tb, Dy, Ho), PMC Physics B, vol. 1, (2008) 9. 594. B. S. Sahu, P. Srivastava, O. P. Agnihotri and S. M. Shivaprasad, Effect of low temperature oxidation on dielectric reliability of photo-deposited silicon nitride films, Journal of Non-Crystalline Solids, vol. 351, (2005) 771. 595. Anjali, P. Srivastava, S. Mohapatra, R. Pal, H. P. Vyas, B. R. Sekhar and H.K. Sehgal, CdTe and anodic oxides on Hg1xCdxTe: Interface and Compositional Analysis using Rutherford Backscattering Spectroscopy, Surface and Interface Analysis, vol. 37, (2005) 562. 71 596. Anjali, P. Srivastava, S. Mohapatra, H. P.Lenka, R. Pal, H. P. Vyas, B. R. Sekhar and H.K. Sehgal, RBS study of annealing effects in passivated Mercury Cadmium Telluride, Semiconductor Science & Technology, vol. 20, (2005) 1072. 597. S. Rajput, S. Chaudhary, S. C. Kashyap, D. K. Pandya, P. Srivastava and A. Lohani, Influence of heat treatment and excess Mg on the superconductivity in bulk MgB2, Bulletin of Materials Science, vol. 29, (2006) 207. 598. Anjali, P. Srivastava, S. Mohapatra, R. Pal, H. P. Vyas, B. R. Sekhar and H. K. Sehgal, Improvement in the ability to block Hg out diffusion from Hg1-xCdxTe by hydrogenation, Semiconductor Science & Technology, vol. 21, (2006) 998. 599. M. H. Modi, G. S. Lodha, P. Srivastava , A. K. Sinha and R. V. Nandedkar, Network compaction and surface deformation in the hydrogenated silicon nitride film upon soft x-ray/VUV illumination, Physical Review B, vol. 74, (2006) 045326. 600. A. Bhardwaj, P. Srivastava and H. K. Sehgal, Chemically deposited PbSe nanoparticle films: Variation in shape and size, J. Electro. Chem. Soc., vol. 154, (2007) K83. 601. S. Handuja, P. Srivastava and V.D. Vankar, Growth of Nitrogen-Containing Carbon Nanotubes by Thermal Chemical Vapor Deposition, Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry , vol.37, (2007) 485. 602. S. Chokker, S. K. Arora, P. Srivastava and V.D. Vankar, Electron field emission from graphitic nanoflakes grown over vertically alighned carbon nanotubes, J. Nano-Science & Nano-Technology, vol. 8, (2008) 4309. 603. M. Bernien, X. Xu, J. Miguel, M. Piantek, Ph. Eckhold, J. Luo, J. Kurde, W. Kuch, K. Baberschke, H. Wende and P. Srivastava, Fe-porphyrin monolayers on ferromagnetic substrates: Electronic Structure and magnetic coupling strength, Physical Review B, vol. 76, (2007) 214406. 604. J. Kurde, N. Ponpandian, J. Luo, C. Weis, K. Baberschke, P. Srivastava and H. Wende, Scattering path analysis and magnetic scattering properties in Fe/Ag(100) films: Application to temperature dependent magnetic EXAFS, Physical Review B, vol. 76, (2007) 224418. 605. S. Ghosh, M. Saurav & P. Srivastava, Synthesis of Nano-dimensional ZnO and Ga Doped ZnO Thin Films by Vapor Phase Transport and study as Transparent Conducting Oxide, J. Nano-Science & Nano-Technology, vol. 8, (2008) 2655. 606. S. Ghosh, P. Srivastava, B. Pandey, M. Saurav, P. Bharadwaj, D. K. Avasthi, D. Kabiraj and S. M. Shivaprasad, Study of ZnO and Ni doped ZnO synthesized by Atom beam sputtering technique, Applied Physics A, vol. 90, (2008) 765. 607. A. Bhardwaj, E. Varadarajan, P. Srivastava and H. K. Sehgal, Structural, optical and electrical properties of chemically grown Pb1-xFexSe nanoparticle thin films, Solid State Communications, vol. 146, (2008) 53. 608. B. S. Sahu, J. K. Ahn, C. J. Xian, S. G. Yoon and P. 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Gösele, Formation of nanovoids/microcracks in high dose hydrogen implanted AlN, Phys. Stat. Sol. (a), vol. 205, (2008) 2683. 630. R. Singh, R. Scholz, U. Gösele and S. H. Christiansen, Investigation of blistering kinetics in hydrogen implanted AlN’ Semicond. Sci. Technol., vol. 23, (2008) 045007. 631. A. Gupta, A. Huang, S. Shannigrahi and R. Chatterjee, Improved magnetoelectric coupling in Mn and Zn doped CoFe2O4– PbZr0.52Ti0.48O3 particulate composite, Appl .Phys. Lett., vol. 98, (2011) 112901. 632. S. K. Srivastava, V. K. Srivastava, L. K. Varga, V. V. Khovaylo, R. Kainuma, M. Nagasako and R. Chatterjee, Systematic study of structural, transport, and magnetic properties of Ni52+xMn26-xAl22 (1 <x <5) melt-spun ribbons, J. Appl. Phys., vol. 109, (2011) 083915. 633. A. Singh and R. Chatterjee, Structural, electrical, and strain properties of stoichiometric (1−x−y)Bi0.5Na0.5… TiO3−x„Bi0.5K0.5TiO3…−y(Na0.5K0.5)NbO3 solid solutions, J. Appl .Phys., vol. 109, (2011) 024105. 634. A. 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Singh, R. Chatterjee and S. K. Date, Microstructural, Electrical, and Magnetic Properties of Acceptor-Doped Nanostructured Lead Zirconate Titanate, J.Amer. Ceram. Soc., ol.. 94, (2011) 3941. 640. S. Dutta, M. Imran, P. Kumar, R. Pal, P. Datta and R. Chatterjee, Comparison of etch characteristics of KOH, TMAH and EDP for bulk micromachining of silicon (110), Microsyst. Tech, vol. 17, (2011) 1621. 641. D. Asthana, A. Kumar, A. Pathak, P. K. Sukul, S. Malik, R. Chatterjee, S. Patnaik, K. Rissanene and P. Mukhopadhyay, An allorganic steroid–D–p-A modular design drives ferroelectricity in supramolecular solids and nano-architectures at RT, Chem. Commun., vol. 47, (2011) 8928. 642. S. K. Srivastava, V. K. Srivastava, A. Joshi, P. Kamasa, L. K. Varga, V. V. Khovaylo and R. Chatterjee, A low temperature anomaly observed in off-stoichiometric Ni–Mn–Ga system studied by higher harmonic ac-susceptibility measurements, Appl. Phys. Lett., vol. 97, (2010) 122505. 643. M. K.Sharma, A. Kanjilal, M. 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Tandon, Decisive properties of graphite-filled cement composites for device application, Applied Physics A, vol. 92, (2008) 417. 667. S. Dutta, R. Chatterjee, P. Dutta, Fabrication Challenges for Realization of Wet Etching Based Comb Type Capacitive Microaccelerometer Structure, Sensors and Transducers, vol. 111, (2008) 18. 668. Vijay Kumar Srivastava and Ratnamala Chatterjee, Do twin boundaries affect the resistivity of single crystal Ni49Mn29Ga22 Heusler alloy?, J.Phys. D Appl.Phys., vol. 40, (2007) 4998. 669. S. M. Abbas, R. Chatterjee, A. R. Kumar and T. C.Goel, Electromagnetic and microwave absorption properties of (Co2+ - Si4+) substituted Ba-Hexaferrites and its polymer composites, J. Appl. Phys., vol. 101, (2007) 074105. 670. S. M. Abbas, A. K. Dixit, R. Chatterjee and T. C. Goel, Preparation of Nanosize Polyaniline and Its Utilization for Microwave Absorber, J. Nanoscience & Nanotechnology, vol. 7, (2007) 2129. 671. S. M. Abbas, A. K. Dixit, R. Chatterjee, T.C. Goel, Complex Permittivity, Complex Permeability and Microwave Absorption Properties of Ferrite -Polymer Composites, J. Mag. Mag. Mat., vol. 309, (2007) 20. 672. S. K. Pandey, S. Kumar, S. N. Chatterjee, C. Prakash, U. Kumar, T. C. Goel and R. Chatterjee, Growth and characterization of Sm3+-substituted PZT thin films, Physica B: Condensed Matter, vol. 388, (2007) 404. 673. V. K. Srivastava, R. Chatterjee and R. C. O’Handley, Effect of Twin boundaries on electrical transport in a Ni–Mn–Ga single crystal, Appl. Phys. Lett., vol. 89, (2006) 222107. 674. S. K Pandey, O.P. Thakur and C. Prakash, R. Chatterjee and T. C. Goel, Effect of processing parameters on pinched loop characteristics of PZT, J. Appl. Phys., vol. 100, (2006) 014104. 675. S. K. Pandey, S. Kumar, S. N. Chatterjee, U. Kumar, C. Prakash, R. Chatterjee and T. C. Goel, Growth and Characterization of Sm3+ Substituted PZT Thin Films, Physica B: Condensed Matter, vol. 388, (2007) 404. 676. S. K. Pandey, O. P. Thakur, A. Goyal, D. S. Rawal, C. Prakash,, R. Chatterjee and T.C. Goel, Comparison of properties of PLZT system with different formulations, Modern Physics Letters B (MPLB), vol. 20, (2006) 1883. 677. A. Verma and R. Chatterjee, Effect of Zn concentration on the structural, electrical and magnetic properties of Mn-Zn and Ni-Zn ferrites synthesized by the citrate precursor technique, J. Mag.Mag. Mat., vol. 306, (2006) 313. 678. S. M. Abbas, A. K. Dixit, R. Chatterjee and T. C. Goel, Complex Permittivity & Microwave Absorption Properties of a Composite Dielectric Absorber, Composites Part A, vol. 37, (2006) 2148. 679. S. Chopra, S. Sharma, T. C.Goel, R. Chatterjee and R. G. Mendiratta, Comparison of Ca-doped and La-doped PT films for Pyroelectric Sensors, Computational Materials Science, vol. 37, (2006) 134. 680. A. Verma, M. I. Alam, R. Chatterjee, T. C. Goel and R. G. Mendiratta, Development of a new soft ferrite core for power applications, J. Mag. Mag. Mat., vol. 300, (2006) 500. 681. P. Kumar, C. Prakash, O. P. Thakur, R. Chatterjee and T. C. Goel, Dielectric, Ferroelectric and Pyroelectric Properties of PMNT Ceramics, Physica B, vol. 317, (2006) 313. 682. V. K. Srivastava, R. Chatterjee, A. K. Nigam and R. C. O’Handley, Electric and magnetic signatures of martensitic and intermartensitic transformations in Ni–Mn–Ga crystal, Sol. State. Commun. Vol. 136, 297 (2005) 683. V. K. Srivastava & R. Chatterjee, Observation of Magnetic Intermartensitic Phase Transition in off-stoichiometric Ni-Mn-Ga Single crystal, IEEE Trans. on Magn., vol. 41, (2005) 1. 684. S. M. Abbas, A. K. Dixit, R. Chatterjee and T. C. Goel, Complex Permittivity and Microwave Absorption Properties of BaTiO3 – Polyaniline Composite, Mat. Sc. & Engg. B, vol. 123, (2005) 167. 685. C. Joshi and S. Ghosh , Density, phase and coherence properties of a low dimensional Bose-Einstein systems moving in a disordered potential, The European Physical Journal B, Vol. 68, (2009) 467. 686. M. Takahashi, S. Ghosh, T. Mizushima and K. Machida, Effective field theory for spinor dipolar Bose Einstein condensates, The European Physical Journal B, Vol. 68, (2009) 391. 687. E. Akkermans, S. Ghosh and Z. Musslimani, Numerical study of one dimensional and interacting Bose-Einstein condensates in a random potential, J. Phys. B, At. Mol Opt. Physics, Vol. 41, (2008) 045302. 688. M. Takahashi, S. Ghosh, T. Mizushima and K. Machida, Spinor Dipolar Bose-Einstein Condensate:Classical Spin approach, 74 Physical Review Letters, Vol. 98, (2007) 260403. 689. P. Kumar, S. Bhattacharya, Govind, B. R. Mehta, and S. M. Shivaprasad, Nitrogen Ion Induced 2D-GaN Layer Formation of GaAs (001) Surface, Journal of Nanoscience and Nanotechnology, vol. 9, (2009) 5659. 690. D. Srikala, V. N. Singh, A. K. Banerjee, B. R. Mehta and S. Patnaik, Synthesis and characterization of ferromagnetic cobalt nanospheres, nanodiscs and nanocubes, Journal of Nanoscience and Nanotechnology, vol. 9, (2009) 5627. 691. R. K. Srivastava, A. Srivastava, R. Prakash, V. N. Singh and B. R. Mehta, Improved thermal stability and electrochemical behaviour of CNTs / polyaniline nanocomposites, Journal of Nanoscience and Nanotechnology, vol. 9, (2009) 5328. 692. V. N. Singh, A. Kumar and B. R. Mehta, Role of gold predeposition layer on the growth of magnesium oxide nanorods, Japanese Journal of Applied Physics, vol. 48, (2009) 065001. 693. S. Kala, B. R. Mehta, F. E. Kruis and V. N. Singh, Synthesis and oxidation stability of monosized and monocrystalline Pr nanoparticles, Journal of Materials Research, vol. 7, (2009) 2276. 694. S. M. Senthil, R. Jayaprakash, V. N. Singh, B. R. Mehta and G. Govindaraj, Synthesis and magnetic properties of nanosize cobalt substituted nickel ferrites (Ni1- xCoxFe2O4) using ovalbumin by thermal evaporation, Journal of Nano Research, vol. 4, (2008) 107. 695. T. Krishnakumar, R. Jayaprakash, V. N. Singh, B. R. Mehta and A.R Phani, Synthesis and characterization tin oxide nanoparticle for humidity sensor applications, Journal of Nano Research, vol. 4, (2008) 91. 696. M. Sardar, D. Varandani, B. R. Mehta and M. N. Gupta, Affinity directed assembly of multilayers of pectinase, Biocatalysis and Biotransformation, vol. 26, (2008) 313. 697. M. Singh, B. R. Mehta, Effect of structural anisotropy on electronic conduction in delafossite tin doped copper indium oxide thin films, Applied Physics Letters, vol. 93, (2008) 192104. 698. M. Khanuja, B. R. Mehta and S. M. Shivaprasad, Two approaches for enhancing the hydrogenation properties of palladium: Metal nanoparticle and thin film over layers, Journal of Chemical Sciences, vol. 120, (2008) 573. 699. Aruna, B. R. Mehta, L. K. Malhotra and S. M. Shivaprasad, Size dependence of core and valence binding energies in Pd nanoparticles: Interplay of quantum confinement and coordination reduction, Journal of Applied Physics, vol. 104, (2008) 064308. 700. R. Nagar, B. R. Mehta, J. P. Singh, D. Jain, V. Ganesan, S. N. Kasapragada and D. Gall, Effect of Swift heavy ion irradiation on the hardness of chromium nanorods, Journal of Vacum Science and Technology A, vol. 26, (2008) 887. 701. Srikala, V. N. Singh, A. Banerjee, B. R. Mehta and S. Patnaik, Control of magnetism in cobalt nanoparticles by oxygen passivation, Journal of Physical Chemistry C, vol. 112, (2008) 13882. 702. A. K. Mann, D. Varandani, B. R. Mehta, L. K. Malhotra, G. Mangamma and A. K. Tyagi, Formation of InN nanoparticle and nanorod structures by nitrogen plasma annealing method, Bulletin of Material Science, vol. 31, (2008) 233 703. Shubhra Kala and B.R. Mehta, Hydrogen induced electrical and optical switching in Pd capped rare Pr nanoparticle layers, Bulletin of Material Science, vol. 31, (2008) 225. 704. V. N. Singh, A. Khare, B. Kumar and B. R. Mehta, Synthesis of Single Phase Cubic Tin Nitride Nanoparticles by Atmospheric Pressure-Halide Vapor Phase Epitaxy, Solid State Sciences, vol. 10, (2008) 569. 705. M. Singh, V. N. Singh and B. R. Mehta, Synthesis and properties of nanocrystalline CuInO2 thin films deposited by RF magnetron sputtering, Journal of Nanoscience and Nanotechnology, vol. 8, (2008) 3889. 706. A. K.Mann, D. Varandani, B. R. Mehta, L. K. Malhotra, G. Mangamma and A. K. Tyagi, Synthesis and luminescence properties of alumina encapsulated InN nanorods, Journal of Nanoscience and Nanotechnology, vol. 8, (2008) 6290. 707. M. Khanuja, B. R. Mehta and S. M. Shivaprasad, Geometric and electronic changes during interface alloy formation in Cu/ Pd bimetal layers, Thin Solid Films, vol. 516, (2008) 5435. 708. V. N. Singh, F. Singh, K. V. Lakshmi, B. R. Mehta and J. P. Singh, On the origin of photoluminescence in In2O3 octahedron structures, Mukesh Kumar, Applied Physics Letters, vol. 92, (2008) 171907. 709. M. Kumar, P. G. Ganesan, V. N. Singh, B. R. Mehta and J. P. Singh, Nanoparticle formation by swift heavy ion irradiation of indium oxide thin film, Nanotechnology, vol. 90, (2008) 175606. 710. S. Kala, B. R. Mehta and F. E. Kruis, A dual-deposition setup for fabricating nanoparticles-thin film hybrid structure, Review of Scientific Instruments, vol. 79, (2008) 013902. 711. M. Khanuja, D. Varandani and B. R. Mehta, Pulse-like hydrogen sensing response in Pd nanoparticle layers, Applied Physics Letters, vol. 91, (2007) 253121. 712. V. N. Singh, B. R. Mehta, R. K. Joshi and F. E. Kruis, Effect of Silver Addition on the Ethanol-Sensing Properties of Indium Oxide Nanoparticle Layers: Optical Absorption Study, Journal of Nanomaterials, vol. 2007, (2007) 28031. 713. S. Kala, B. R. Mehta, S. A. Khan and D. K. Avasthi, Nanotracks as transport routes for enhanced and reversible hydrogen diffusion in SHI irradiated Pd-Pr layers, Applied Physics Letters, vol. 90, (2007) 153121. 714. A. K. Mann, D Varandani, B. R. Mehta and L. K. Malhotra, Conducting atomic force microscopy studies of InN nanocomposite layers having conducting and non conducting phases, Journal of Applied Physics, vol. 101, (2007) 084304 . 715. S. Shah, A. Sharma, D. Varandani, B. R. Mehta, M. N. Gupta, A high performance lipase preparation: Characterization and atomic force microscopy, Journal of Nanoscience and Nanotechnology, vol. 7, (2007) 2157. 716. V. N. Singh, B. R. Mehta, R. K. Joshi, F. E. Kruis and S. M. Shivaprasad, Enhanced gas sensing response of In2O3:Ag composite nanoparticle layers; electronic interaction, size and surface induced effects, Sensors and Actuators B: Chemical, vol. 125, (2007) 482. 717. S. Kala and B. R. Mehta, Optical properties of Pr thin films and nanoparticle layers during hydrogen loading and deloading, Journal of Applied Physics, vol. 101, (2007) 124312. 718. Aruna, B. R. Mehta, and L. K. Malhotra, Gadolinium Nanoparticle Based Switchable Mirrors: Quenching of Hydrogenation– Dehydrogenation Hysteresis, Journal of Nanoscience and Nanotechnology, vol. 7, (2007) 1768. 719. V. N. Singh, B. R. Mehta, R. K. Joshi, and F. E. Kruis, Size-Dependent Gas Sensing Properties of Indium Oxide Nanoparticle 75 Layers, Journal of Nanoscience and Nanotechnology, vol. 7, (2007) 1930. 720. M. Khanuja, S. Kala, B. R. Mehta, H. Sharma, S. M. Shivaprasad, B. Balamurgan, A. Maisels and F. E. Kruis, XPS and AFM Studies of Monodispersed Pb/PbO Core–Shell Nanostructures, Journal of Nanoscience and Nanotechnology, vol. 7, (2007) 2096. 721. S. Banga , G. Chawla G, D. Varandani, B. R. Mehta, A. K. Bansal, Modification of the crystal habit of celecoxib for improved processability, Journal of Pharmacy and Pharmacology, vol. 59, (2007) 29. 722. S. Kala and B. R.Mehta, Size dependent structural, optical and hydrogenation properties of Pr nanoparticle layers, Journal of Alloy and Compounds, vol. 431, (2007) 10. 723. I. Aruna, L.K. Malhotra and B. R. Mehta, Rare earth based switchable mirrors, Chapter 228. Switchable Metal Hydride Films, Handbook on the Physics and Chemistry of Rare Earths, Vol. 36, edited by K. A. Gschneidner, Jr., J.-C. G Bünzli and V. Pecharsky, 2006, Elsvier, North Holland, 724. B. R. Mehta, I. Aruna and L. K. Malhotra, Rare-earth gadolinium nanoparticle for hydrogen induced swithching, sensing and storage devices’, In: Nano-Scale Materials: From Science to Technology, eds. S.N. Sahu, R. K. Choudhury, P. Jena pp. 2534. 2006, Nova Science Publishers Inc. 725. Mondal, P. Mehta, B. R. Mehta, D. Varandani and M.N. Gupta, A bioconjugate of Pseudomonas cepacia lipase with alginate with enhanced catalytic efficiency, Biochimica et Biophysica Acta, vol. 1764, (2006) 1080. 726. V. Aggarwal, I. Aruna, V. Banerjee and B. R. Mehta, Growth of palladium nanoparticles- an experimental and numerical study, Physical Review B, vol. 74, (2006) 035412. 727. V.N. Singh and B. R. Mehta, Nanoparticle size-dependent lowering of temperature for phase transition from In(OH)3 to In2O3, Journal of Nanoscience and Nanotechnology, vol. 5, (2005) 431. 728. P. B. Dayal, B. R. Mehta and P. D. Paulson, Spin-orbit splitting and critical point energy at Г and L points of cubic CdTe nanoparticles: Effect of size and non spherical shape, Physical Review B, vol. 72, (2005) 115413. 729. Aruna, B. R. Mehta, L. K. Malhotra, S. A. Khan and D. K. Avasthi, Effect of nanoparticle nature on hydrogen concentration profiles and switching characteristics in Gd switchable mirrors, Journal of Nanoscience and Nanotechnology, vol. 5, (2005) 1728 1728. 730. Aruna, B. R. Mehta and L. K. Malhotra, Faster H recovery in Pd nanoparticle layer based Gd switchable mirrors; Sizeinduced geometric and electronic effects, Applied Physics Letters, vol. 87, (2005) 103101. 731. B. R. Mehta and V. N. Singh, Structural, electrical and gas-sensing properties of In2O3 : Ag composite nanoparticle layers, Pramana-Journal of Physics, vol. 65, (2005) 949. 732. A. K. Mann, D. Varandani, B. R. Mehta and L.K. Malhotra, Size-induced changes in optical and x-ray photoelectron spectra of GaN nanoparticles deposited at lower substrate temperature, Journal of Nanoscience and Nanotechnology, vol. 5, (2005) 1858. 733. Babudayal, B. R.Mehta and S. M. Shivaprasad, Synthesis of cubic and hexagonal CdTe nanoparticles dispersed in SiO2 films: role of oxygen during sintering, Japanese Journal of Applied Physics, vol. 44, (2005) 8222. 734. I. Aruna, B. R. Mehta, L. K. Malhotra and S. M. Shivaprasad, Stability and hydrogenation of “bare” Gd nanoparticles, Advanced Functional Materials, vol. 15, (2005) 131. 735. B. R. Mehta and F. E. Kruis, Graded diameter and oriented nanorod-thin film structure for solar cell applications: a device proposal, Solar Energy Materials and Solar cells, vol. 85, (2005) 107. 736. B. Terhalle, J. Joseph, and C. Denz, J. Xavier and P. Rose, Three-dimensional optically induced reconfigurable photorefractive nonlinear photonic lattices, Opt. Lett., vol. 34, (2009) 2625. 737. J. Xavier, M. Boguslawski, P. Rose, J. Joseph and C. Denz, Reconfigurable Optically Induced Quasicrystallographic ThreeDimensional Complex Nonlinear Photonic Lattice Structures, Adv. Materials., vol. 22, (2010) 356. 738. J. Joseph and D. A. Waldman, Homogenized FT holographic data storage using phase SLM and methods for recovery of data from phase image, Appl. Opt., vol. 45, (2006) 6374. 739. M. Kumar, V. N. Singh, B. R. Mehta, F. Singh, K. V. Lakshmi and J. P. Singh, On the origin of Photoluminescence in indium oxide octahedron structures, Applied Physics Letters, vol. 92, (2008) 171907. 740. M. Kumar, P. G. Ganesan, V. N. Singh, B. R. Mehta and J. P. Singh, Nanoparticle formation by swift heavy ion irradiation of indium oxide thin film, Nanotechnology, vol. 19, (2008) 175606. 741. A. M. Munshi, M. Kumar, V. N. Singh and J. P. Singh, Nanoparticle size determination by sessile contact angle measurements, J. Appl. Phys., vol. 103, (2008) 084315. 742. R. Nagar, V. Ganesan, S. V. Kesapragada, D. Gall, B. R. Mehta and J. P. Singh, Effect of Swift heavy ion irradiation on the hardness of Chromium nanorods, J. Vac. Sci. and Technol. A, vol. 26, (2008) 887. 743. J. P. Singh, C. Li, P. M. Ajayan, and N. Koratkar, Electrical transport in multiwall carbon nanotubes at mechanical resonance, Nanoscience and Nanotechnology, vol. 8, (2008) 436. 744. J. P. Singh, T. Karabacak, P. Morrow, S. Pimanpang, T. M. Lu and G. C. Wang, Preferred orientation in Ru nanocolumns induced by residual oxygen, Nanoscience and Nanotechnology, vol. 7, (2007) 2192. 745. J. P. Singh, T. Karabacak, D. X. Ye, D. L. Liu, C. Picu, T. M. Lu and G. C. Wang, Physical properties of nanostructures grown by oblique angle deposition, Vac. Sci. Technol. B, vol. 23, (2005) 2114. 746. S. Ghsoh, Electronic sputtering of nanodimensional hydrogenated amorphous carbon and copper oxide thin films, Defense Science Journal, vol. 59, (2009) 371. 747. S. Ghosh, Nanoscale magnetic semiconductors and magnetic metal/insulator films” Role of energetic ions” a review 2009, Nova Publishers (in press). 748. S. Ghosh, D. Kanjilal, B. Pandey, M. Saurav and P.Kumar, Room temperature ferromagnetism in 200 keV Ni ion implanted ZnO films, Rad. eff. and def. Sol., vol. 163, (2008) 215. 749. S. Ghosh, A. Tripath, V. Ganesan and D. K. Avasthi, Synthesis of nanodimensional copper nitride films and modification of 76 the surface under high electronic excitation, J.Nanosci.Nanotechnol., vol. 8, (2008) 2505. 750. H. Kumar, Y. K. Mishra, S. Mohapatra, D. Kabiraj, J. C. Pivin, S. Ghosh, and D. K. Avasthi, Compositional analysis of atom beam co-sputtered metal nanocomposites by Rutherford backscattering spectrometry” Nucl. Instr.And Meth.In Phys. Res. B, vol. 266, (2008) 1511. 751. Y. K. Mishra, V. Chakravandhula, U. Schrüman, H. Kumar, D. Kabiraj, S. Ghosh, V. Zpaorotchenko, D. K. Avasthi and F. Faupel, Controlled reduction of size of Ag nanoparticles embedded in Teflon matrix by MeV ion irradiation, Nucl. Instr.And Meth.In Phys. Res. B, vol. 266, (2008) 1804. 752. S. Ghosh, V. V. Sivakumar, A. Tripathi, S. Khan, V. Ganesan, A. Gupta, A. Nath and D. K. Avasthi, Formation of nanoscale metallic structures on cupric nitride thin film surface by the impact of 200 MeV Au15+ ions, Nucl. Instr.And Meth.In Phys. Res. B, vol. 248, (2006) 71. 753. S. Ghosh, D. K. Avasthi. A. Tripathi, D. Kabiraj, P. Sugathan, G. K. Chaudhary, P. Barua and S. K. Datta, Heavy ion elastic recoil detection analysis set up for electronic sputtering studies, Radiation Effects and Defects in Solids, vol. 161 (4) (2006) 247. 754. S. Mishra, A. Ingale, S. Ghosh and D. K. Avasthi, Swift heavy ion (150 MeV Ag 13+) induced structural changes in a-C: H films studied by Raman spectroscopy, Diamond and Related Mater., vol. 14, (2005) 1416. 755. D. P. Ghai , S. Vyas, P. Senthilkumaran and R. S. Sirohi, Vortex lattice generation using interferometric techniques based on lateral shearing, Opt.Commun., vol. 282, (2009) 2692. 756. D. P. Ghai, P. Senthilkumaran and R. S. Sirohi, Single slit diffraction of an optical beam with phase dislocation, Optics and Lasers in Engg., vol. 47, (2009) 123. 757. D. P. Ghai , S. Vyas, P. Senthilkumaran and R. S. Sirohi, Shearograms of a singular beam using wedge plate lateral shear interferometer, Optics and Lasers in Engg., vol. 46, (2008) 797. 758. R. Kumar, D. S. Mehta, A. Sachdev, A. Garg, P. Senthilkumaran and Chandrashaker, Generation and detection of optical vortex using all fiber optic system, Opt.Commun., vol. 281, (2008) 3414. 759. D. P. Ghai, S. Vyas, P. Senthilkumaran and R. S. Sirohi, Detection of Phase singularity using a lateral shear interferometer, Optics and Lasers in Engg., vol. 46, (2008) 419. 760. D. P. Ghai, P. Senthilkumaran and R. S. Sirohi, Adaptive helical mirror for generation of optical phase singularity, Appl.Opt., vol. 47, (2008) 1378. 761. D. P. Ghai, P. Senthilkumaran and R. S. Sirohi, Shearograms of an optical phase singularity, Opt.Commun., vol. 281, (2008) 1315. 762. R. K. Singh, P. Senthilkumaran and K. Singh, Focusing of a vortex carrying beam with Gaussian background by an apertured system in presence of coma, Opt.Commun., vol. 281, (2008) 923. 763. S. Vyas and P. Senthilkumaran, Vortex array generation by interference of spherical waves, Appl.Opt., vol. 46, (2007) 7862. 764. S. Vyas and P. Senthilkumaran, Interferometric optical vortex array generator, Appl. Opt., vol. 46, (2007) 2893. 765. P. Senthilkumaran, Berry’s phase fiber loop mirror characteristics, J. Opt. Soc. Am.-B., vol. 22, (2005) 505. 766. P. Senthilkumaran, F. Wyrowski and H. Schimmel, Vortex stagnation problem in Iterative Fourier Transform Algorithms, Optics and Lasers in Engg., vol. 43, (2005) 43. 767. A. Kumar and V. K. Tripathi, Bernstein mode aided anomalous absorption of laser in a plasma, Phys. Plasmas, vol. 12, (2005) 012313. 768. K. P. Singh, D. N. Gupta, S. Yadav and V. K. Tripathi, Relativistic second harmonic generationof a laser from underdense plasmas, Phys. Plasmas, vol. 12, (2005) 013101. 769. N. Kumar and V. K. Tripathi, Self-defocusing/ focusing of a relativistic laser pulse in a multiple-ionizing gas, European J. Phys. D, vol. 32, (2005) 62. 770. V. K. Tripathi, T. Taguchi and C. S. Liu, Plasma channel charging by an intense short pulse laser and ion Coulomb explosion, Phys. Plasmas, vol. 12, (2005) 043106-1. 771. C. S. Liu and V. K. Tripathi, Ponderomotive effect on electron acceleration by plasma wave and betatron resonance in short pulse laser, Phys. Plasmas, vol. 12, (2005) 043103-1. 772. P. K. Tiwari, G. J. H. Brussaard, M. J. Wie and V. K. Tripathi, Laser induced tunnel ionization and electron density evolution in air, J. Phys. Soc. Japan, vol. 74, (2005) 2255. 773. D. B. singh and V. K. Tripathi, Attenuated total reflection predictions to surface plasmon resonance in a layered structure, J. Appl. Phys., vol. 98, (2005) 053708. 774. A. Ahmad and V. K. Tripathi, Parametric excitation of higher order electromechanical vibrations of carben nanotubes, Phys. Rev. B, vol. 72, (2005) 193409. 775. A. Sharma and V.K. Tripathi, Nonlinear distortion of a laser pulse in a magnetized plasma, Phys. Plasmas 12, (2005) 093109. 776. A. Kumar and V. K. Tripathi, Bernstein mode coupling to cyclotron harmonic radiation in a plasma, Phys. Plasmas, vol. 13, (2006) 052302. 777. N. Kumar and V. K. Tripathi, Non-paraxial theory of self defocusing of a laser pulse in a tunnel ionizing gas, Appl. Phys. B, vol. 82, (2006) 53 778. N. Kumar and V. K. Tripathi, Filamentation of a relativistic laser pulse in a plasma, Physica Scripta, vol. 73, (2006) 659. 779. N. Kumar and V. K. Tripathi, Effect of betatron resonance on plasma wave acceleration of electrons in an ion channel, Euro Physics Letters, vol. 72, (2006) 260. 780. A. Kumar, R. Uma and V. K. Tripathi, Nonlinear reflection of a high frequency radio wave by ionospheric grating created by another wave, Radio Science, vol. 41, (2006) RS4014. 781. B. K. Pandey, R. N. Agarwal and V. K. Tripathi, Tunneling of a relativistic laser pulse through an overdense plasma slab, Phys. Letters A, vol. 349, (2006) 245. 77 782. P. K. Tiwari and V. K. tripathi, Laser beat wave excitation of plasma waves in a clustered gas, Physica Scripta, vol. 73, (2006) 1. 783. V. Sajal, A. Panwar, and V. K. Tripathi, Relativistic forward raman scattering of a laser in a plasma channel, Phys. Scr., vol. 74, (2006) 484. 784. C. S. Liu, G. Kumar, and V. K. Tripathi, Laser mode conversion into a surface plasma wave in a metal coated optical fiber, J. Appl. Phys., vol. 100, (2006) 013304. 785. G. Kumar, D. B. Singh, and V. K. Tripathi, Surface enhanced Raman scattering of a surface plasma wave, J. Phys. D: Appl. Phys., vol. 39, (2006) 4436. 786. V. B. Pathak and V. K. Tripathi, Nonlinear electromagnetic plasma eigenmodes and their stability to stimulated Raman scattering, Phys. Plasmas, vol. 13, (2006) 082105. 787. A. Ahmad and V. K. Tripathi, Model calculation of scanned field enhancement factor of CNTs, Nanotechnology, vol. 17, (2006) 3798. 788. P. K. Tiwari and V. K. Tripathi, Laser third harmonic generation in clustered plasmas, Phys. Scr., vol. 75, (2006) 1. 789. V. B Pathak and V. K. Tripathi, Electromagnetic eigenmodes of collisional and collisionless plasmas and their stability to stimulated Brillouin scattering, Phys. Plasmas, vol. 14, (2007) 022105. 790. A. Ahmad and V. K. Tripathi, Nonlinear absorption of femto second laser on a laser surface embedded by metallic nanoparticles, Appl. Phys. Lett., vol. 89. (2006) 153112. 791. V. Sajal and V. K. Tripathi, Coupled stimulated Raman and decay instabilities in a plasma with drifting electrons, J. Phys. D: Appl. Phys., vol. 40, (2007) 453. 792. A. Ahmad and V. K. Tripathi, Collective vibration modes of a CNT array and Brillouin scattering of laser, Nanotechnology, vol. 18, (2007) 315702. 793. A. Kumar and V. K. Tripathi, Parametric excitation of electron Bernstein waves by radio waves in the ionosphere and its consequence for airglow, J. Phys. D: Appl. Phys., vol. 40, (2007) 3396. 794. V. Sajal, D. Dahiya and V. K.Tripathi, Stimulated forward Raman scattering of a laser in a magnetised plasma, Phys. Plasmas, vol. 14, (2007) 032109. 795. C. S.Liu, V. K.Tripathi, and Naveen Kumar, Vlasov formalism of the laser driven ion channel x-ray laser, Plasma Phys. Control.Fusion, vol. 49, (2007) 325.. 796. P. Kumar and V. K. Tripathi, Stimulated Raman scattering of sub-millimeter waves in Bismuth, J. Phys. and chem. Solid, vol. 68, (2007) 2216. 797. C. S. Liu, G. Kumar, D. B. Singh and V. K. Tripathi, Electron acceleration by surface plasma waves in double metal surface structure, J. Appl. Phys., vol. 102, (2007) 113301. 798. G. Kumar and V. K. Tripathi, Anomalous absorption of surface plasma wave by particles adsorbed on metal surface, Appl. Phys. Lett., vol. 91, (2007) 161503. 799. G. Kumar and V. K. Tripathi, Filamentation of a surface plasma wave over a semiconductor free space interface, J. Appl. Phys., vol. 102, (2007) 123301. 800. N. Kumar and V. K. Tripathi, Parametric excitation of surface plasma wavesin an overdense plasma irradiated by an ultrshort laser pulse, Phys.Plasmas, vol. 14, (2007) 103108. 801. D. B. Singh, G. Kumar and V. K. Tripathi, Nonlinear absorption of surface plasmons and emission of electrons from metallic targets, Phys. Plasmas, vol. 14, (2007) 102108. 802. V. B. Pathak, Suppression of stimulated Raman scattering of a laser in a rippled density plasma, Phys. Plasmas, vol. 15, (2008) 022301. 803. M. S. Sodha, L. Bhasin and V. K. Tripathi, Beat excitation of whistlers in the presence of field aligned irregularities in the ionosphere, Phys. Plasmas, vol. 15, (2008) 042901. 804. P. Kumar and V. K. Tripathi, Parametric conversion of a lower hybrid wave into a whistler in a plasma, Phys. Plasmas, vol. 15, (2008) 052107. 805. S. Yadav and V. K. Tripathi, Second harmonic stimulated Compton scattering of laser in a plasma, Phys. Scripta, vol. 77, (2008) 015501. 806. C. S. Liu and V. K. Tripathi, Third harmonic generation of a short pulse laser in a plasma density ripple created by a machining beam, Phys. Plasmas, vol. 15, (2008) 023106. 807. C. S. Liu, V. K. Tripathi and R. Annou, Resonant reduction in microwave reflectivity from an overdense plasma with the employment of a parallel metal grating, Phys. Plasmas, vol. 15, (2008) 062103. 808. A. Kuley and V. K. Tripathi, Lower hybrid instability in a tokamak under neutral beam injection and magnetic shear, Phys. Plasmas, vol. 15, (2008) 052502. 809. P. Kumar and V. K. Tripathi, A surface plasmon laser, J. Appl. Phys., vol. 104, (2008) 033306. 810. V. B. Pathak and V. K. Tripathi, Raman shifted second harmonic backscattering of lasers in a magnetized plasma, Phys. Plasmas, vol. 15, (2008) 092104. 811. A. Sharma and V. K. Tripathi, Ponderomotive acceleration of electrons by a laser pulse in magnetized plasma, Phys. Plasmas, vol. 16, (2009) 043103. 812. N. Ahmad, V.K. Tripathi, M. Rafat and Mudassir M. Husain, Oscillating two stream instability of electromagnetic pump in the ion cyclotron range of frequency in a plasma, Phys. Plasmas, vol. 16, (2009) 062308. 813. C. S. Liu and V. K. Tripathi, Tunable terahertz radiation from a tunnel ionized magnetized plasma cylinder, J. Appl. Phys., vol. 105, (2009) 013313. 814. B. K. Pandey and V. K. Tripathi, Anomalous transmission of an intense short-pulse laser through a magnetized overdense plasma, Phys. Scripta, vol. 79, (2009) 025101. 78 815. V. B. Pathak, D. Dahiya and V. K. Tripathi, Coherent terahertz radiation from interaction of electron beam with rippled density plasma, J. Appl. Phys., vol.105, (2009) 013315. 816. C. S. Liu, V. B. Pathak and V. K. Tripathi, Cross phase modulation between lasers in a tunnel ionizing gas, Phys. Plasmas, vol. 16, (2009) 053102. 817. A. Kuley and V. K. Tripathi, Stabilization of ion temerature gradient driven modes by lower hybrid wave in a tokamak, Phys. Plasmas, vol. 16, (2009) 032504. 818. R. Singh and V. K. Tripathi, Filamentation of laser in a magnetized plasma under relativistic and ponderomotive nonlinearities, Phys. Plasmas, vol. 16, (2009) 052108. 819. P. Kumar and V. K. Tripathi, Stimulated Raman up conversion of a helicon by ban-dgap energy plasmons in a semiconductor, J. Appl. Phys., vol. 106, (2009) 013312. 820. A. K. Shukla and V. Kumar, Low-frequency Raman scattering from silicon nanostructures, J. Appl. Phys., vol. 110, (2011) 064317. 821. H. Sharma, A. K. Shukla and V. D. Vankar, Structural modifications and enhanced Raman scattering from multiwalled carbon nanotubes grown on titanium coated silicon single crystals, Thin Solid Films (2011) in press. 822. V. Kaushik, H. Sharma, Pooja, A. K. Shukla and V. D. Vankar, Structural Modification and Enhanced Electron Emission from Multiwalled Carbon Nanotubes Grown on Ag/Fe catalysts Coated Si-Substrates, Materials Chemistry and Physics, vol. 130, (2011) 986. 823. H. Sharma, A. K. Shukla and V. D. Vankar, Effect of titanium interlayer on the microstructure and electron emission characteristics of multiwalled carbon nanotubes, J. Appl. Phys., vol. 110, (2011) 33726. 824. A. K. Shukla, R. Kumar and V Kumar, Electronic Raman scattering in the Laser-etched silicon nanostuctures, J. Appl. Phys., vol. 107, (2010) 14306. 825. H. Sharma, V. Kaushik, P. Girdhar, V. N. Singh, A. K. Shukla, V.D. Vankar, Enhanced electron emission from titanium coated multiwalled carbon nanotubes, Thin Solid Films, vol. 518, (2010) 6915. 826. R. Kumar, V. Kumar and A. K. Shukla, Thermal effects on electron-phonon interaction in Silicon nanostructures, Silicon, vol. 2, (2010) 73. 827. R. Kumar, H. S. Mavi and A. K. Shukla, Spectroscopic Investigations of Quantum confinement effects in ion implanted silicon on sapphire films, Silicon, vol. 2, (2010) 25. 828. S. Dhanekar, T. Islam, A. K. Shukla and Harsh, Organic vapour sensing by porous silicon : Influence of molecular kinetics in selective studies, Physica E, vol. 42(5), (2010) 1648. 829. B. Joshi, S. S. Islam, H. S. Mavi, V. Kumari, T. Islam, A. K. Shukla and Harsh, Wavelength dependent laser induced etching of Cr- O doped GaAs, morphology studies by SEM and AFM, Bull. Material Scince, vol. 32(1), (2009) 31. 830. R Kumar and A. K. Shukla, Quantum interference in Raman scattering from silicon nanostructures, Physics Letters A, vol. 373, (2009) 2882. 831. B. Joshi, S. S. Islam, H. S. Mavi, V. Kumari, T. Islam, A. K. Shukla and Harsh, Size-selective laser-induced of sem-insulating GaAs: Photoluminesence studies, Physica E, vol. 41, (2009) 690. 832. R. Kumar, A. K. Shukla, B Joshi and S. S. Islam, Laser induced effects in laser etched silicon nanostructures, Jpn. J. Appl. Phys., vol. 47, (2008) 8461. 833. R. Kumar and A. K. Shukla, Temperature dependent phonon confinement in silicon nanostructures, Physics Letters A, vol. 373, (2008) 133. 834. R. Kumar, H. S. Mavi and A. K. Shukla, Macro and microsurface morphology reconstruction during laser-induced etching of silicon, Micron(Elsevier) vol. 39, (2008) 287. 835. S. Rath, D. Kabiraj, D. K. Awasthi, A. Tripathi, K. P. Jain, M. Kumar, H. S. Mavi, A. K. Shukla, Evidence of nanostructure formation in Ge oxide by crystallization induced by swift heavy ion irradiation, Nuclear Instruments and Methods in Physics Research B, vol.263, (2007) 419. 836. S. S. Islam, K. A. Shah, H. S. Mavi, A. K. Shukla, S. Rath and Harsh, Raman Study on single-walled carbon nanotube with different laser excitation energies, Bull. Mater Sci. (Springer), Vol. 30, (2007) 295. 837. H. S. Mavi, A. K. Shukla, R. Kumar, S. Rath, B. Joshi and S. S. Islam, Quantum confinement effects in silicon nanocrystals produced by laser-inducted etching and cw laser annealing, Semicond. Sci. Technol., vol.21, (2006) 1627. 838. K. A Shah, S. S. Islam, H. S. Mavi, A. K. Shukla and Harsh, Metallic/semiconducting ratio of carbon nanotubes in a bundle prepared using CVD technique, Pramana (Springer), vol. 67, (2006) 395. 839. H. S. Mavi, S. Prusty, M. Kumar, R. Kumar, S. Rath and A. K. Shukla, Formation of Si and Ge quantum structures by laserinduced etching, Physica Stat. Sol. A, vol. 203, (2006) 2444. 840. H. S. Mavi, S. S. Islam, R Kumar and A. K. Shukla, Spectroscopic Investigation of porous GaAs prepared by laser-induced etching , J. Non-crtstalline Solids, vol. 352, (2006) 2236 . 841. H. S. Mavi, S. Rath and A. K. Shukla, Laser induced etching for generation of Si nanoparticles and spectroscopic investigation of morphology, Journal of Metastables and Nanocrystalline Materials, vol. 23, (2005) 43. 842. S. Prusty, H. S. Mavi and A. K. Shukla, Optical nonlinearity in silicon nanoparticles : effects of size and probing intensity, Phys. Rev. B, vol. 71, (2005) 113313. 843. S. K. Srivastava, A. K. Shukla, V. D. Vankar and V. Kumar, Growth, structure and field emission chacteristics of patal like carbaon nano-structured thin films, Thin Solid Films, vol. 492, (2005) 124. 844. K. Kumari, S. Chand, P. Kumar, S. N. Sharma,V. D. Vankar, V. Kumar, Effect of CdSe quantum dots on hole transport in poly(3-hexylthiophene) thin films, Appl. Phys. Lett., vol. 92, (2008) 263504. 845. K. Kumari, U. Kumar, S. N. Sharma, S. Chand, V. D. Vankar, V. Kumar, Effect of surface passivating ligand on structural and optoelectronic properties of polymer:CdSe quantum dot composite, J. Phys. D: Appl. Phys., vol. 41, (2008) 235409. 846. R. Sharma, D. V. S. Rao, and V. D.Vankar, Growth of Nanocrystalline -Silicon Carbide and Nanocrystalline Silicon Oxide 79 Nanoparticles by Sol Gel Technique, Materials Letters, vol. 62, (2008) 3174. 847. R. Kumar, A. K. Shukla, H. S. Mavi and V. D. Vankar, Size dependent Fano interaction in the laser-etched silicon – Nanostructures, Nanoscale Res. Lett., vol. 3, (2008) 105. 848. M. Kumar, H. S. Mavi, S. Rath, A. K. Shukla and V. D. Vankar, Fabrication of nanopatterned germanium surface by laserinduced etching: AFM, Raman and PL studies, Physica E, vol. 40, (2008) 2904. 849. M. Kumar, A. K. Shukla, H. S. Mavi and V. D. Vankar, Nonlinear optical response of germanium nanoparticles, J. Optics A: Pure and Applied Optics, vol. 10, (2008) 085103. 850. S. Chhoker, S. K. Arora, A. K. Shukla, P. K. Srivastava and V. D. Vankar, Electron field emission from carbon nanoflakes grown over vertically aligned carbon nanotubes grown by MPECVD, Journal of Nanoscience and Nanotechnolgy, vol. 8(8), (2008) 4309. 851. J. Kaur, V. D.Vankar and M. C.Bhatnagar, Effect of MoO3 Addition on the NO2 sensing Properties of SnO2 Thin films, Sensors and Actuators B, vol.133, (2008) 650. 852. J. Kaur, V. D.Vankar and M. C.Bhatnagar, Effect of Dendrite Structures on Gas Sensing Properties in In-Doped SnO2 Thin Films, Sensor Letters, vol. 6, (2008) 409. 853. S. K. Srivastava, V. D. Vankar, V. Kumar, and V. N. Singh, Effect of substrate morphology on growth and field emission properties of carbon nanotube films, Nanoscale Res. Lett., vol. 3, (2008) 205. 854. S. K. Srivastava, V. D. Vankar, and V. Kumar, Excellent field emission properties of short conical carbon nanosheets prepared by microwave plasma enhanced CVD process, Nanoscale Res. Lett., vol.3, (2008) 25. 855. S. K. Arora, S. Chhoker, N. K. Sharma, V. N. Singh and V. D. Vankar, Growth and Field Emission Characteristics of Diamond Films on Macroporous Silicon Substrate, Jour. Applied Physics, vol. 104, (2008) 103524. 856. S. K.Arora, V. D.Vankar, D.V.Shridhara Rao, Structure and Field Emission Study of Hot Filament Chemical Vapour Deposited Nanocrystalline Diamond Films, Synthesis and Reactivity in Inorganic, Metal- Organic and Nano- Metal Chemistry, vol. 37, (2007) 481. 857. R. Kumar, H. S. Mavi, A. K. Shukla and V. D. Vankar, Photoexcited Fano interaction in laser-etched silicon nanostructures, J. Appl. Phys., vol. 101, (2007) 064315. 858. S. Handuja, P. Srivastava, V. D. Vankar, Growth of nitrogen containing carbon nanotubes by thermal CVD, Synthesis and Reactivity in Inorganic, Metal-organic and Nano-Metal Chemistry, vol. 37, (2007) 485. 859. S. Chhoker, S. K.Srivastava and V. D. Vankar, Field emission properties of carbon nanostructures: A review, Physics of Semiconductor Devices, 2007. IWPSD 2007. (2007) 820. 860. S. K.Srivastava, V. D.Vankar and V. Kumar, Growth and Microstructures of Carbon Nanotube Films Prepared by Microwave Plasma Enhanced Chemical Vapour Deposition Process, Thin Solid Films, vol. 515, (2006) 1552. 861. S. K. Srivastava D.V. S Rao and V. Kumar, Enhanced Field emission Characteristics of Nitrogen Doped Carbon Nanotubes Films Grown by Microwave Plasma Enhanced Chemical Vapour Deposition Process, Thin Solid Films, vol. 515, (2006) 1851. 862. S. Vinayak, H. P.Vyas, K. Nuraleedharan and V. D. Vankar, Ni-Cr Thin Film Resistor Fabrication for GaAs Monolithic Microwave Integrated Circuits, Thin Solid Films, vol. 514, (2006) 52. 863. S. Vinayak, H. P.Vyas and V. D. Vankar, Microsture and Electrical Characteristics of Ni-Cr Thin Films, Thin solid Films, vol. 515, (2007) 709. 864. S. K. Arora and V. D. Vankar, Field Emission Characteristics of Microcrystalline Diamond Films: Effect of Surface Coverage and Thickness, Thin Solid Films, vol. 515, (2006) 1963. 865. S. K. Srivastava, A. K. Shukla, V. D. Vankar and Vikram Kumar, Growth, Structure and Field Emission Characteristics of Petal Like Carbon Nano-structured Thin Films, Thin Solid Films, vol. 492, (2005) 124. 866. A. K. Jha, N. Khare and R. Pinto, Comparison of flux pinning mechanism in laser ablated YBCO and YBCO:BaZrO3 nanocomposite thin films, J. Supercond. Novel. Magn. In press (2011). 867. A. K. Jha, N. Khare and R. Pinto, Enhanced critical current density in YBa2Cu3O7-d thin film deposited on La0.67Sr0.33MnO3 nanoparticle decorated SrTiO3 substrate, Physica C: Superconductivity, In press (2011). 868. B. K. Sharma, N. Khare, M. Kumar and P. Kumar, Study of intermediate states in shape transition in ZnO nanostructures from nanoparticles to nanorods, Chem. Phys. Lett., vol. 515, (2011) 62. 869. A. K. Jha, N. Khare and R. Pinto, Enhanced flux pinning in pulsed laser deposited YBCO:BaTiO3 nanocomposite thin films, Sol. St. Comm.,vol. 151, (2011) 1447. 870. B. K. Sharma and N. Khare, Stress dependent band gap shift and quenching of defects in Al-doped ZnO films, Journal of Physics D: Applied Physics, vol. 43, (2010) 465402. 871. B. K. Sharma and N. Khare, Photoluminescence lifetime of Al-doped ZnO films in visible region, Sol. St. Comm. Vol. 150, (2010) 2341. 872. R. Kumar, N. Khare, G. L. Bhalla and M. N. Kamalasanan, Fabrication of ZnO/a-NPD:F4 TCNQ based inorganic-organic hybrid junction: Effect of doping of the organic layer on the diode like characteristic, Thin Solid Films, vol. 518, (2010) e61. 873. A. K. Jha and N. Khare, Investigation of flux pinning properties of YBCO:BaZrO3 composite superconductor from temperature dependent magnetization studies, J. Mag. and Magn. Mater., vol. 322, (2010) 2653. 874. B. K. Sharma, N. Khare and M. Kumar, Stress dependent band gap shift and valance band studies in ZnO nanorods, J. NanoScience & Nano Technology, vol. 10, (2010) 1. 875. A. K Jha and N. Khare, Single Crystalline Superconducting MgB2 Nanowire, Supercond. Sci. Technol. vol. 22, (2009) 075017. 876. A. K. Jha and N. Khare, Strongly enhanced pinning force density in YBCO-BaTiO3 nanocomposite superconductor, Physica C: Superconductivity, vol. 469, (2009) 810. 877. B K. Sharma, N. Khare, R. Sharma, S. K. Dhawan, V.D. Vankar and H. C. Gupta, Dielectric behavior of polyaniline-CNTs composite in microwave region, Compos. Sci. Technol., vol. 69, (2009) 1932. 80 878. R. Kumar, N. Khare, V. Kumar, G. L. Bhalla, M. N. Kamalasanan, Gayatri Chauhan and Ritu Srivastava, Fabrication and current-voltage characteristics of ZnO/α-NPD based organic-inorganic junction, Semicond. Sci. Technol., vol. 24 , (2009) 045020. 879. B. K. Sharma, N. Khare and S. Ahamad, A ZnO/PEDOT:PSS based inorganic/organic heterojunction, Sol. St. Comm., vol. 149, (2009) 771. 880. B. K. Sharma, A. K. Gupta, N. Khare, S. K. Dhawan and H. C. Gupta, Synthesis and characterization of Polyaniline-ZnO composite and its dielectric behavior, Synthetic Metals, vol. 159, (2009) 391. 881. B. K. Sharma, N. Khare, S. K. Dhawan and H. C. Gupta, Dielectric properties of nano ZnO-polyaniline composite in the microwave frequency range, J. All. Compd., vol. 477, (2009) 370. 882. A. K. Gupta, R. Kumar, V. Kumar, G. L. Bhalla, N. Khare, Study of magnetotransport in double-layered La1.4Ca1.6Mn2O7 manganite: Presence of nano ferromagnetic domains in paramagnetic matrix, J. Phys. Chem. Solid., vol. 70, (2009) 117. 883. R. Kumar, N. Khare, V. Kumar and G. L. Bhalla, Effect of intrinsic stress on the optical properties of nanostructured ZnO thin films grown by rf magnetron sputtering, Appl. Surf. Sci., vol. 254, (2008) 6509. 884. R. Kumar, A. K. Gupta, V. Kumar and N. Khare, Current induced effect on resistivity and low field magnetoresistance of La0.67Ba0.33MnO3 manganite, J. Mag. Mag. Mater., vol. 320, (2008) 2741. 885. N. Khare, A. K. Gupta and D.P. Singh, Magnetic flux noise in MgB2 superconductor, Appl. Phys. Lett., vol. 92, (2008) 192508. 886. R. Kumar and N. Khare, Temperature dependence of conduction mechanism of ZnO and Co-doped ZnO thin films, Thin Sol. Films, vol. 516, (2008) 1302. 887. D. P. Singh, N. Khare, C. Shekhar and O. N. Srivastava, Temperature dependence of conduction noise of MgB2 superconductor, Physica C: Superconductivity, vol. 468, (2008) 872. 888. J. L. MacManus-Driscoll, N. Khare, Y. Liu and M. E. Vickers, Structural evidence for Zn interstitials in ferromagnetic Zn1-xCoxO films, Adv. Mater., vol. 19, (2007) 2925. 889. D. P. Singh and N. Khare, Measurements of conduction and magnetic noise of La0.67Ba0.33MnO3 manganite, Supercond. Sci. Technol., vol. 20, (2007) 785. 890. R. Kumar, A. K. Gupta, V. Kumar, G. L. Bhalla and N. Khare, Temperature dependence of electroresistance for La0.67Ba0.33MnO3 manganite, J. Phys. Chem. Sol., vol. 68, (2007) 2394. 891. A. K. Gupta, V. Kumar and N. Khare, Hopping conduction in double layered La2-2xCa1+2xMn2O7 manganite, Sol. St. Sci., vol. 9, (2007) 817. 892. A. K. Gupta, V. Kumar, G. L. Bhalla and N. Khare, Low temperature electrical transport in La2-xCa1+2xMn2O7 double layered manganite, J. All. Compd., vol. 438, (2007) 56. 893. N Khare, M. J. Kappers, M. Wie, M. G. Blamire and J. L. MacManus-Driscoll, Defect-induced ferromagnetism in Co-doped ZnO, Adv. Mater., vol. 18, (2006) 1449. 894. A. K. Gupta, G. L. Bhalla and N. Khare, Temperature and magnetic field dependence of conduction noise in double layered La1.4Ca1.6Mn2O7 manganite, Fluctuations & Noise Letters, vol. 6, (2006) L387. 895. A. K. Gupta, G. L. Bhalla and N. Khare, Magnetic phase diagram of double layered La2-2xCa1+2xMn2O7 manganite, J. Phys. Chem. Sol., vol. 67, (2006) 2358. 896. A. Chandra, D. P. Singh, P. K. Singh, Neeraj Khare and S.Chandra, Ionic noise measurement in polymer electrolyte, Ionics, vol. 12, (2006) 349. 897. D. P. Singh, V. Kumar, G. L. Bhalla, P. K. Siwach, O. N. Srivastava and N. Khare, Conductance and conduction noise of polycrystalline La0.7Ca0.2Ba0.1MnO3 films on different substrates, Sol. St. Comm., vol. 140, (2006) 395. 898. A. Chandra, R. Ranjan, D. P. Singh, N. Khare and D. P. Pandey, The effect of Pb2+ substitution on the quantum paraelectric behavior of CaTiO3, J. Phy:Cond. Matt., vol. 18, (2006) 2977. 899. N. Khare, D. P. Singh, A. K. Gupta, S. Sen, D. K. Aswal, S. K. Gupta and L. C. Gupta, Direct evidence of weak-link grain boundaries in polycrystalline MgB2 superconductor, J. Appl. Phys., vol. 97, (2005) 076103. 900. N. Khare, A. K. Gupta and G. L. Bhalla, Preparation and low field magnetoresistance of double layered manganite La1.4Ca1.6Mn2O7, J. Phys. Chem. Sol., vol. 66, (2005) 949. 901. C. Kakkar and K. Thyagarajan, Broadband, Lossless dcf utilizing flat-gain Raman amplification in asymmetrical twin-core fiber, Applied Optics, vol. 44, (2005) 2396. 902. C. Kakkar and K. Thyagarajan, High gain Raman amplifier with inherent gain flattening and dispersion compensation, Optics Communications, vol. 250, (2005) 77. 903. C. Kakkar, G. Monnom, K. Thyagarajan and B. Dussardier, Segmented-clad fiber design for inherently gain flattened l+ band tdfa, IEEE Photonics Technology Letters, vol. 17, (2005) 1833. 904. C. Kakkar and K. Thyagarajan, Segmented-clad fiber design for tunable leakage loss, J. Lightwave Technology-Special issue on Optical Fiber Design, vol. 23, (2005) 3444. 905. C. Kakkar, G. Monnom, K. Thyagarajan, and B. Dussardier, Inherently gain flattened l+ band tdfa based on w-fiber design, Optics Communications, vol. 262, (2006) 193. 906. C. Kakkar and K Thyagarajan, Design optimisation for obtaining flat, high power supercontinuum source over C + l band, Optics Express, vol. 14, (2006) 10292. 907. R. Das and K. Thyagarajan, Shg in Bragg reflection waveguides for enhanced bandwidth applications, Optics Communications, vol. 270, (2007) 79. 908. R. Das and K. Thyagarajan, Anomalous behaviour in a Bragg reflection waveguide, Optics Communications, vol. 273, (2007), 84. 909. R. Das and K. 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Upadhyaya, IEEE Journal of Quantum Electronics, vol. 47 (2011) 786. 928. U. Tiwari, S. M. Tripathi, K. Thyagarajan, M. R. Shenoy, V. Mishra, S. C. Jain, N. Singh and Pawan Kapur, Tunable wavelength division multiplexing channel isolation filter based on dual chirped long-period fiber gratings, Optics Letters, vol. 36, (2011) 3747. 929. U. Tiwari, K. Rajan, K. Thyagarajan, Multi-channel gain and noise figure evaluation of Raman/EDFA hybrid amplifiers, Optics Communications, Vol. 281, (2008) 1593. 930. B. N. Upadhyaya, Usha Chakravarty, A.Kuruvilla, S.M. Oak, M.R. Shenoy, and K. Thyagarajan, Self-pulsing characteristics of a high-power single transverse mode Yb-doped cw fiber laser, Opt. Comm. vol. 283 (2010) 2206. 931. V. Lakshminarayanana and K. Thyagarajan, Non-diffracting airy beams in planar optical waveguides: a convenient method for visualization, J. Modern Opt. vol. 57 (2010) 341. 932. B. N. Upadhyaya, A. Kumar, U. Chakravarty, S. M. Oak, M. R. Shenoy, and K. Thyagarajan, Analysis of output pulse characteristics in q-switched yb-doped fiber laser, IEEE J. Quant. Electron. vol. 47 (2011) 786. 933. Jasleen Lugani, Sankalpa Ghosh, and K. Thyagarajan, Generation of modal and path entangled photons using domain engineered integrated optical waveguide device, Phys. Rev. A vol. 83 (2011) 062333. 82 1984-85 1975-76 Memories of Yesteryears 83 Memories of Yesteryears 84 Memories of Yesteryears 85 Memories of Yesteryears 86 Memories of Yesteryears !"#$%&'#()*+,"-#.*-/#0-12"3-0#&32#0-*%%#."#+&3#.*34 5/'0*+0#*0#63"#67#-/"#860-#7&961)*-" 2"$&)-8"3-# 76)#-/"#0+/66%#,*20#21)*3:#;30-*-1-"<0#=$"3#>610"# "9"3-? Happy Memories Physics Department Floors: third and fourth, Main Building Indian Institute of Technology Delhi Hauz khas, New Delhi 110 016 INDIA Ph: +91(11)-2659 1331 FAX: +91(11)-2658 1114 Email: [email protected] web: http://physics.iitd.ac.in/ This booklet describes a brief introduction to physics department’s undergraduate and postgraduate teaching programmes as well as research activities of the period 2005-11. We pride ourselves as one of the recognized premier departments for its quality teaching and research, which we are happy to share with you. We welcome any constructive criticisms/suggestions from its readers. ® All right are reserved.
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