Technical Attendees
New Conference Enhancement for Technical Attendees
Technical sessions on demand!
We are delighted to announce a new enhancement to the value of your registration to this year's conference! More than 40% of FiO sessions are being recorded for on-demand viewing! The pre-selected content represents the full breadth of the FiO program including plenaries, symposia, oral presentations, featured What's Hot topics and the all popular postdeadline papers. Session content will be available for on-demand viewing until December 31, 2011. All captured session content will be live for viewing within twenty four hours of being recording.
Who can access the recorded sessions?
How do I access the recorded sessions?
What sessions are available for viewing?
If I didn't attend the conference, can I purchase the recorded sessions?
Who can access the recorded sessions?
If you have registered for any of the following 2011 registration types, you are eligible to view the recorded sessions:
- Full Registration (Member, Non-Member)
- Student (Member, Non-Member)
- Emeritus
- Exhibitor Technical
- Press/Media
How do I access the recorded sessions?
Technical Registrants
As a technical registrant of the conference, access to the online library of recorded sessions is included with your registration. To this year's valuable digital content, you will need your conference Primary Email and Meeting Code. This information is provided to all technical registrants in a pre-conference confirmation email, as well as onsite with your conference materials. Recorded sessions are available online for on-demand viewing 24 hours from the time they are recorded.Visit the On Demand Recorded Sessions Log-in site to access exclusive pre-selected content.
Non-Technical/Non-Attendee Registrants
If you do not fall in one of the categories eligible for complimentary access or are unable to attend the 2011 FiO/LS Conference in San Jose, California but would like to purchase access to the online session content, we welcome your interest. You may purchase the complete suite of captured session recordings, or choose from six value-packages.
For additional information or assistance, contact help.osa.org
What sessions are available for viewing?
Please note: Final session recording schedule is subject to onsite changes and speaker permission.
Sunday, October 16, 2011
Monday, October 17, 2011
Tuesday, October 18, 2011
Wednesday, October 19, 2011
Thursday, October 20, 2011
What's Hot in Optics Today?
- What’s Hot in Bio-Medical Optics, Adam P. Wax, Duke University, United States
- What’s Hot in Fabrication, Design and Instrumentation, Qiwen Zhan, University of Dayton, United States
- What’s Hot in Information Acquisition, Processing and Display, David Brady, Duke University, United States*
- What’s Hot in Photonics and Opto-Electronics, Aref Chowdhury, Alcatel-Lucent Bell Labs, Germany*
- What’s Hot in Vision and Color, Joseph Carroll, Medical College of Wisconsin, United States
- What’s Hot in Mid-Infrared Laser Technology: Highlights and Applications, Irina Sorokina, Norwegian Univ. of Science & Technology, Norway*
Plenary Session
- Lightwave Modulators: Early Days, Ivan Kaminow, University of California Berkeley, United States
- Table-Top Soft X-Ray Lasers: Bright Coherent Light for the Nanoworld, Jorge Rocca, Colorado State University, United States
- Seeing is Believing: Capturing Electrons in Real Time, Ferenc Krausz, Max-Planck-Institut für Quantenoptik & Ludwig-Maximilians-Universität München, Germany
- Inside the Wavelength-Seeing Really Small Objects with Light, John Pendry, The Blackett Lab, Imperial College, United Kingdom
*Pending Author Approval
Special Symposium on Integrated Optofluidics for the Life Sciences
FMA1 - Optofluidic Manipulation Of Particles For Separation, Purification, and Analysis, Sean Hart, Intel Capital, United States
FMA2 - Single-Molecule Biophysics with Optofluidic Trapping, David Erickson, Cornell University, United States
FMA3 - Integration Methods for Raman spectroscopy and Passive Sorting in Optofluidics, Praveen Ashok, University of St Andrews, United Kingdom
FMA4 - Optofluidic Tomography, Serhan Isikman, UCLA, United States
FMA5 - Compact and Cost-effective Lensfree Reflection and Transmission Microscopy on Chip, Aydogan Ozcan, UCLA, United States
Special Symposium on Novel X-ray and EUV Light Sources and Sciences; Accelerator-based X-ray Free-Electron Lasers and Science
FMC2 - A Next Generation X-ray Laser Array at the Berkeley Lab: Science Drivers and Facility Overview, Robert Schoenlein, Lawrence Berkeley National Laboratory, United States
FMC4 - Applications of the LCLS X-ray Free Electron Laser for High-Energy Density Science, Richard Lee, Lawrence Livermore National Lab, United States
Pending author approval.
Optomechanics I
FMD1 - Near Threshold Optomechanical Backaction Amplifier, Warwick Bowen, University of Queensland, Australia
FMD2 - Mechanical Squeezing via Parametric Amplification and Weak Measurement, Warwick Bowen, University of Queensland, Australia
FMD3 - Observation of Backaction of Ultracold Atoms onto a Mechanical Oscillator, Matthew Rakher, Universität Basel, Switzerland
FMD4 - Opto-Mechanics and Quantum Dot-Nanocavity Qed, Jelena Vuckovic, Stanford University, United States
FMD5 - Feedback Enhanced Sensitivity in Cavity Optomechanics: Surpassing the Parametric Instability Barrier, Warwick Bowen, University of Queensland, Australia
FMD6 - Optomechanical Coupling in a Two Dimensional Photonic Crystal Cavity, Remy Braive, LPN-CNRS, Université Paris 7, France
FMD7 - Analysis of Harmonic Generation and RF Frequency Mixing in Optomechanical Oscillators, Mani Hossein-Zadeh, University of New Mexico, United States
Phase
FME1 - Methods and Applications of X-ray Phase Nanotomography, Manuel Guizar-Sicairos, Paul Scherrer Institut, Switzerland
FME2 - Task-Based Assessment of Phase-Contrast Mammography, Adam Zysk, Illinois Institute of Technology, United States
FME3 - Extracting Absolute Phase and Amplitude from DIC Imagery, Donald Duncan, Portland State University, United States
FME4 - Phase Resolved Imaging of Nonlinear Focal Fields Using Heterodyne Four-Wave Mixing Microscopy, Varun Raghunathan, University of California Irvine, United States
FME5 - Phase Retrieval through Nonlinear Media, Chien-Hung Lu, Princeton University, United States
Special Symposium on Integrated Optofluidics for the Life Sciences II
FMH1 - Chip Integrated Optical Manipulation of Single Airborne Particles, Marcel Horstmann, Institute of Applied Physics, Westfälische Wilhelms-Universität, Germany
FMH2 - Holographic Control and High-Speed Imaging for Studies of Hydrodynamic Coupling on A Micron Scale, Miles Padgett, University of Glasgow, United Kingdom
FMH3 - Label-free Cytometry via Wavefront Sensing, James Jacob, CytoRay, Actinix, United States
FMH5 - Adaptive Nanodispenser Microrobot for Lab-On-A-Chip in Microfluidic Platform, Pietro Ferraro, Istituto Nazionale di Ottica, Italy
Novel Metamaterials and Plasmonic Structures
FMI2 - Carpet Cloak Device for Visible Light, Christopher Gladden, University of California Berkeley, United States
FMI3 - Demonstration of Temporal Cloaking, Moti Fridman, Cornell University, United States
FMI4 - Conversion of Polarization State to Visible Color by Anisotropic Plasmonic Cross Antenna Arrays, Tal Ellenbogen, Harvard University, United States
FMI5 - Plasmonic Nano-Bubble Cavity Probed by Cathodoluminescence, Jun Xu, MIT, UIUC, United States
FMI6 - Surface Plasmons at Graded Metal-Dielectric Interfaces, Brett Kruger, University of Toronto, Canada
Special Symposium on Novel X-ray and EUV Light Sources and Sciences; Extreme Ultraviolet and Soft X-Ray Small-Scale Sources: Science and Applications
FMJ1 - Laser-based Gamma-Rays and the Emergence of Nuclear Photonics, Christopher Barty, Lawrence Livermore National Lab, United States
FMJ2 - Strong Field Physics with Long Wavelength Lasers, Anthony DiChiara, The Ohio State University, United States
FMJ3 - Table-top Short Pulse Driver for Sub-10 nm Soft X-ray Lasers, Bradley Luther, Colorado State University, United States
FMJ4 - Inductively Driven, Electrodeless Z-pinch Sources for EUV and Soft X-ray Applications, Matthew Partlow, Energetiq Technology Inc., United States
FMJ5 - Phase Matching of Attosecond-to-Zeptosecond Kiloelectronvolt X-ray Supercontinua from High Harmonic Generation, Tenio Popmintchev, University of Colorado at Boulder, United States
Fluorescence and Other Imaging Techniques
FML1 - In Vivo Imaging of Tumors Using Multiphoton Fluorescence and Second Harmonic Generation, Ed Brown, Univ. of Rochester, United States
FML2 - Second-Harmonic Microscopy for Cornea Collagen Fibril Imaging: Theoretical and Experimental Optimization, Brian Vohnsen, University College Dublin, Ireland
FML3 - Imaging Spectroscopy Without a Spectrometer, Thomas Kohlgraf-Owens, CREOL, The College of Optics and Photonics, University of Central Florida, United States
FML4 - In Vivo Particle Bombardment and Viral Methods for Specific Cellular and Subcellular Labeling, Ken Greenberg, Spiral Genomics LLC,
FML5 - How to Enhance the Two-Photon Brightness of Fluorescent Proteins?, Mikhail Drobizhev, Montana State University, United States
FML6 - Spectrally Encoded Imaging, Dongkyun Kang, Massachusetts General Hospital and Harvard Medical School, United States
Three-Dimensional Structure Design, Fabrication, and Nanopatterning III
FTuAA1 - Three-Dimensional Fabrication below the Diffraction Limit via Two-Color Photo-Inhibition/Initiation Lithography., Robert McLeod, University of Colorado at Boulder, United States
FTuAA2 - 2D and 3D Writing of Silver Nanostructures through Multiphoton Photoreduction, Kevin Vora, Harvard University, United States
FTuAA3 - Photolithography and Direct Three-Dimensional Writing (and Erasing) Based on Silver Nanoparticles Formation (and Oxidation) within a Polymer, Antonio Silva, Centro de Tecnologias Estratégicas do Nordeste, Brazil
FTuAA5 - Three-Dimensional Light Modulation Using a Piecewise Implementation of the Gerchberg-Saxton Algorithm, Giovanni Tapang, University of the Philippines Diliman, Philippines
Ultrashort Pulses: 20th Anniversary of Frequency-Resolved Optical Gating Symposium I
FTuB2 - Ultrafast Coherent X-Rays - from Femtoseconds to Zeptoseconds, Margaret Murnane, Univ. of Colorado Boulder, United States.
Pending author approval.
FTuB3 - Generation and Characterization of Isolated Attosecond Pulses for Atomic and Molecular Physics, Mauro Nisoli, National Research Council of Italy, Institute of Photonics and Nanotechnologies (CNR-IFN), Italy
FTuB4 - Interferometric FROG for Few-Cycle Pulse Characterization and as an Ultrafast Spectroscopy Tool, Gunter Steinmeyer, Max-Born-Insitut für
Information Theory in Optics I: Classical Information Theory
FTuBB2 - Information Theory and Digital Signal Processing in Optical Communications: Scaling Beyond the Imminent Single-Mode Fiber Capacity Limit, Peter Winzer, Alcatel-Lucent, United States
Nonlinear Optics in Micro/Nano Optical Structures I
FTuD1 - Ultra-High-Quality Whispering-Gallery-Mode Resonators for Single Nanoparticle Detection and Measurement, Lan Yang, Washington University, United States
FTuD2 - Multi-photon State Generation from Strongly Coupled Quantum Dot-Cavity System, Michal Bajcsy, Stanford University, United States
FTuD3 - Time-Resolved Vibrational Nanospectroscopy Using Femtosecond Infrared Scattering Scanning Near-field Optical Microscopy, Xiaoji Xu, University of Colorado, United States
FTuD4 - Highly Coherent, Microcavity Brillouin Laser on Silicon, Jiang Li, California Institutute of Technology, United States
FTuD5 - Ultrafast Dynamics of Nucleation and Growth of Metallic Domains in VO2, Nathaniel Brady, University of Alabama at Birmingham, United States
FTuD6 - Generation of Continuous-Wave UV, Visible, and Near-IR Waves in a Whispering-Gallery Resonator, Jeremy Moore, University of Michigan, United States
FTuD7 - Optical Arbitary Waveform Generation from an On-Chip Microresonator Frequency Comb, Fahmida Ferdous, Purdue University, United States
Digital Holographic Interferometry and Microscopy I
FTuF1 - Impact of Digital Holography on Microscopy and Nanoscopy, Christian Depeursinge, STI, Switzerland
FTuF2 - Region-of-Interest Sharpness Correction, Abbie Tippie, University of Rochester, United States
FTuF3 - Sub-pixel Movement Detection with Compressive Holography, Yi Liu, MIT, United States
FTuF4 - Phase Conjugating Interferometer for Optical Vortices in Rotating Frame, Alexey Okulov, Russian Academy of Sciencies, Russian Federation
FTuF6 - Digital Holographic Interferometry and Microscopy for 3D Object Visualization, Georges Nehmetallah, University of Dayton, United States
Plasmonic Metamaterials
FTuG2 - Theory of Near-IR Metatronic Nanocircuits Using Transparent Conducting Oxides (TCO), Humeyra Caglayan, University of Pennsylvania, United States
FTuG3 - Mapping Surface Plasmon Propagation by Collection-Mode Near-Field Microscopy, Maria Allegrini, Universà di Pisa, Italy
FTuG4 - Internal Homogenization: Effective Permittivity of Multilayered Spheres, Uday Chettiar, University of Pennsylvania, United States
FTuG5 - Wall-Avoiding Field Distributions in Plasmonic Waveguides, Francisco Rodríguez-Fortuño, University of Pennsylvania, Universidad Politécnica de Valencia, United States, Spain
Fiber Sources in Non-Telecom Windows I
FTuI3 - An All Fiber Mode-Locked Tm/Ho Fiber Laser Employing C-band Components, Rajesh Kadel, Kansas State University, United States
FTuI4 - Tellurite Microstructured Fibers and Their Applications, Yasutake Ohishi, Toyota Technological Institute, Japan
Optofluidics for Enhanced Sensing
FTuJ1 - Optofluidic Nanostructures for Concentration and Sensing, David Sinton, University of Victoria, Canada
FTuJ2 - Title to be Announced, Michal Lipson, Cornell University, United States
FTuJ3 - Determination of Microdroplet Contact Angles Using Electrically Eriven Droplet Oscillations, Yasin Karadag, Koç Universty, Turkey
FTuJ4 - Enhancing the Sensitivity of Whispering Gallery Mode Biosensors Using Plasmons, Jon Swaim, University of Queensland, Australia
Three-Dimensional Structure Design, Fabrication, and Nanopatterning II
FTuM1 - Beyond the Rayleigh Limit in Optical Lithography, M. Suhail Zubairy, Texas A&M University, United States
FTuM2 - High Precision Matrix Laser Lithography for Fabrication of Novel Types of Optical Security Elements, Marek Skeren, Czech Technical University, Czech Republic
FTuM3 - Adaptive Optical Methods for Parallelized Laser Fabrication, Martin Booth, University of Oxford, United Kingdom
FTuM4 - Performance of Double-Groove Grating with +1st-Order Diffraction Angle Larger than Substrate-Air Critical Angle, Hideo Iizuka, Toyota Motor Engineering & Manufacturing North America, Toyota Central R&D Labs, Japan
FTuM5 - Novel Optical Document Security Elements Based on Waveguide Effect, Jakub Svoboda, Czech Technical University In Prague, Faculty of Nuclear Sciences and Physical Engineering, Czech Republic
Optomechanics II
FTuN1 - GaAs Disks Optomechanics, Ivan Favero, Université Paris, France
FTuN2 - A Cavity Effect on Optical Forces, Joel Rubin, Queens College of CUNY, United States
FTuN3 - Single-input Spherical Microbubble Resonator, Jonathan Ward, Quantum Optics Group, Ireland
FTuN4 - Cavity Optomechanics with Silicon Nitride Membrane Gratings, Utku Kemiktarak, NIST / JQI, United States
FTuN5 - Mechanical Motion of a Microspherical Pendulum, Jonathan Ward, Quantum Optics Group, Ireland
Ultrashort Pulses: 20th Anniversary of Frequency-Resolved Optical Gating Symposium II
FTuP1 - Complex Pulses and New physics: How FROG has Led to New Paradigms for Ultrafast Nonlinear Optics, John Dudley, CNRS, France
FTuP2 - Frequency Resolved Optical Gating of Atomic and Molecular Coherence: From Weak to Strong Field Regimes, Valery Milner, University of British Columbia,
FTuP3 - FROG at High Na: Quantifying the Excitation Fields for Multiphoton Microscopy, Jeff Squier, Colorado School of Mines, United States
FTuP4 - Spectrograms for Probing Nonlinear Pulse Propagation, Selçuk Aktürk, Istanbul Technical University, Turkey
Lasers and Photoemission for Accelerator Science
FTuR1 - Lasers for High Brightness X-Fel Photo Injectors, William White, , United States
FTuR2 - High-energy Femtosecond Laser Sources at MHz Repetition Rates for Experiments with Picosecond-/Femtosecond-/Attosecond Electron Bunches, Alexander Apolonski, MPQ, Ludwig-Maximilians-Universitaet Muenchen, Germany
FTuR3 - Ultrafast, Plasmonically Enhanced Photoemission from Metals, Péter Dombi, Research Institute for Solid-State Physics and Optics, Hungary
FTuR4 - Spectral Control of Supercontinuum Generated by Intense Femtosecond Pulses with Diffractive Optics, Rocio Borrego Varillas, Universidad de Salamanca, Spain
Optical Communications I
FTuT1 - Demonstration of 2-Tbit/s Data Link using Orthogonal Orbital-Angular-Momentum Modes and WDM, Irfan Fazal, University of Southern California, Los Angeles, United States
FTuT2 - Enhanced Dynamic Equalization Performance of a 112 Gb/s PM-QPSK Coherent Receiver by Gain Adaptation in CMA, Aldario Bordonalli, Universidade de Campinas - UNICAMP, Japan
FTuT3 - Toward New Class of Fiber Communications Infrastructure: EXAT Initiatives, Yoshinari Awaji, NICT, Japan
FTuT4 - Fiber Transmission of Picosecond Pulsed Laser Beam, Chunning Huang, Oak Ridge National Lab, United States
FTuT5 - Optical A/D using Oversampling by Second-Order DSM, Azad Siahmakoun, Rose-Hulman I. T., United States
FTuT6 - Spatial Multiplexer and Experimental Attenuation of a Four Channel Spatial Domain Multiplexed System in Multimode Fibers Using Fiber Taper Technology, Syed Murshid, Florida Institute of Technology, United States
FTuT7 - Analysis of Spatially Multiplexed Helically Propagating Channels in Step Index Optical Waveguides, Syed Murshid, Florida Institute of Technology, United States
Tunable and Active Plasmonics
FTuU1 - Active and Tunable Plasmonics and Metamaterials, Harry Atwater, California Institute of Technology, United States
FTuU2 - Electrically Induced Harmonic Generation with Plasmonics, Wenshan Cai, Stanford University, United States
FTuU3 - Tunable Metal Optics through Circuit Analysis, Etai Rosenkrantz, Ben-Gurion University, Israel
FTuU4 - Tunable and Nonlinear Microwave and Terahertz Metamaterials, Hou-Tong Chen, Los Alamos National Laboratory, United States
FTuU5 - Tunable Coupling between Magnetic Plasmon Polaritons and Bloch Surface Waves, Xiudong Sun, Harbin Institute of Technology, China
FTuU6 - Triangular Metal Wedge/Groove Based Hybrid Plasmonic Structures for Low-Threshold Deep-Subwavelength Lasing, Zheng Zheng, Beihang University, China
Photonics for Switching and Interconnects
FTuV1 - Device Challenges and Opportunities for Optical Interconnects, David A. B. Miller, Stanford University, United States
FTuV2 - Non-volatile Bistable All-Optical Switch from Mechanical Buckling, Varat Intaraprasonk, Stanford University, United States
FTuV3 - Silicon Photonics for Modulation, Switching, and Tuning, Michael Watts, Massachusetts Institute of Technology, United States
Fiber Sources in Non-Telecom Windows II
FTuW1 - Supercontinuum Generation at Mid-IR Wavelengths in Chalcogenide Photonic Crystal Fibers, Curtis Menyuk, University of Maryland Baltimore County, United States
FTuW2 - Raman Amplifier with > 200 W Average Power Based on a Step-index Fused Silica Fiber, Miroslaw Rekas, Fraunhofer Institute for Applied Optics and Precision Engineering, Germany
FTuW3 - Relative Intensity Noise Characterization of a Linear Polarized 1.1 kW Fiber-Amplified Narrow-Band ASE Source, Andrea Kliner, Institute of Applied Physics, Germany
FTuW4 - Coherence-Preserving kW-Level Tm Fiber Amplifiers At 2mm, Gregory Goodno, Northop Grumman, United States
Special Symposium on 50 Years of Measuring the Eye’s Aberrations I
FWA1 - An Historical Understanding of the Normal Eye’s Monochromatic Aberrations, Howard Howland, Cornell Univ., United States
FWA3 - Customized Clinical Correction of the Eye’s Aberrations, Ian Cox, Bausch and Lomb, United States
FWA4 - Adaptive Optics Techniques Used for In Vivo Examination of the Retina and Visual System, Robert Zawadzki, Univ. of California at Davis, United States
Frequency Combs-I-Sources
FWB1 - Silicon-Chip-Based Optical Frequency Combs, Alexander Gaeta, Cornell University, United States
FWB2 - Chip-based Frequency Comb with Microwave Repetition Rate, Jiang Li, California Institutute of Technology, United States
FWB3 - Dual-Comb-Based Characterization of Rapidly Tuned Lasers, Fabrizio Giorgetta, National institute of standards and technology, United States
FWB4 - Hybrid 2-µm Er:Fiber/Tm:Fiber Frequency Comb, Florian Adler, National Institute of Standards and Technology, University of Colorado, United States
FWB5 - Spectral Broadening of Femtosecond Mid-IR Pulses Coupled into Quantum Cascade Lasers, Sheng Liu, UMBC, UMBC, United States
Hybrid-Organic Integrated Photonics
FWBB1 - Integration of New Organic Electro-Optic Materials into Silicon and Silicon Nitride Photonics and into Metamaterial and Plasmonic Device Structures, Larry Dalton, University of Washington, United States
FWBB2 - Photophysics of a Near IR Nonlinear Absorber for Waveguide Applications, San-Hui Chi, United States Naval Research Laboratory, United States
FWBB3 - Hybrid Multilayered Heterostructures for High-Performance Near-Infrared LEDs, Sylvain Cloutier, University of Delaware, United States
FWBB4 - Progress in Heterogeneously Integrated Silicon-InP Laser Diodes for On-chip All-optical Networks and Signal Processing, Geert Morthier, Ghent University - imec, Belgium
Plasmonic Waveguides and Cavities
FWC1 - Coherent and Broadband Plasmonic Nanocavities, Stefan Maier, Imperial College London, United Kingdom
FWC2 - An Integrated Hybrid Nanophotonics Platform, Volker Sorger, UC Berkeley, United States
FWC3 - Coupled Nanowire Array Based Long-Range Hybrid Plasmonic Waveguide for Subwavelength Mode Confinement, Zheng Zheng, Beihang University, China
FWC4 - Channeled Photonic-Crystal-Surface-Plasmon-Coupled Waveguide at Terahertz Frequency, Triranjita Srivastava, Delhi Technological University, India
FWC5 - Plasmon Dynamics in Coupled Optical Microcavities, Norberto Lanzillotti-Kimura, University of California - Berkeley, United States
FWC6 - Experimental Characterization of Plasmonic Modes in a Multimode Metal-Insulator-Metal Waveguide by Attenuated Total Reflection, Chien-I Lin, Georgia Tech, United States
Order, Disorder and Symmetry in Photonic Structures I
FWF1 - Laser Emission and Coherent Control of Absorption in Complex and Random Systems, A. Douglas Stone, Yale University, United States
FWF2 - Photonic Network Laser, Heeso Noh, Yale University, United States
FWF3 - Isotropic Structural Color of Nanostructured Metal Surfaces, Sylvanus Lee, Boston Univ, Boston University, United States
FWF4 - Transmission Channels through Random Media, Zhou Shi, City University of New York, United States
Special Symposium of 50 Years of Measuring the Eye’s Aberrations II
FWH1 - Using Adaptive Optics to Create Finer Tools for Probing Visual Function, Austin Roorda, University of California at Berkeley, United States
FWH2 - Probing Cellular Function in the Living Retina with Adaptive Optics, David Williams, University of Rochester, United States
Electron Dynamics in Intense Fields
FWI1 - Attosecond Control of Collective Electron Dynamics in Plasmas, Rodrigo Lopez Martens, CNRS - ENSTA ParisTech - Ecole Polytechnique, France
FWI2 - Optical Characterization of Laser-Driven Electron Acceleration, Malte Kaluza, Friedrich-Schiller-Universität, Helmholtz-Institute Jena, Germany
FWI3 - Tunable Laser-Driven Electron Acceleration via Shock Front Injection, Alexander Buck, Max Planck Institute of Quantum Optics, Ludwig-Maximilians-Universität, Germany
FWI4 - Ultrafast X-ray Absorption Spectroscopy of Isochorically Heated Copper Plasmas at Solid Density, Byoung-ick Cho, Lawrence Berkeley Natl Lab, United States
Bioplasmonics
FWL1 - Mapping the Spatial Distribution of Cell Surface Receptors with Plasmon Coupling Microscopy, Bjoern Reinhardt, Boston University, United States
FWL2 - Plasmonics in Biological Imaging, Rohit Bhargava, Univ. of Illinois, United States
FWL3 - Ultrasensitive Label Free Biosensors Enables Seeing Protein Monolayers with The Naked Eye, Ahmet Yanik, Boston Univ, Boston University, United States
FWL4 - Controlled Synthesis of Gold Nanorods and Application to Brain Tumor Delineation, Kevin Seekell, Duke University, United States
FWL5 - Fluorescent Dye and OLED Based Plasmonic Dark Field Microscopy, Feifei Wei, University of California, San Diego, United States
Order, Disorder and Symmetry in Photonic Structures II
FWN1 - Quantum Information Theory in Optics, Norbert Lutkenhaus, University of Waterloo, Canada
FWN2 - Entanglement and Quantum Information Theory, STeven van Enk, Univ. of Oregon, United States
Looking into the Eyes of Animal Models of Disease
FWO1 - The Guinea Pig as a Model of Myopia, Sally McFadden, University of Newcastle, Australia
FWO3 - High Resolution Imaging of the Living Mouse Eye: A Model for Retinal Diseases, Ying Geng, University of Rochester, University of Rochester, United States
FWO4 - Wavefront Tomography of the Human Eye Assisted with Corneal Topography and Optical Path Measurements, Chris Dainty, National University of Ireland Galway, Ireland
FWO5 - Probing Global Aging Changes to Photoreceptors, Ann Elsner, Indiana University/Aeon Imaging, United States
FWO6 - Visual Performance of the Human Eye - Combining Optical modeling and Square Root Integral Method, Krishnakumar Venkateswaran, Alcon Laboratories, Inc, United States
High Fields and Plasmas
FWP1 - Application of a Multi-Terawatt 3ps CO2 Laser for Monoenergetic Proton Beam Generation, Dan Haberberger, UCLA, United States
FWP2 - Development of a 0.5 PW high contrast Ti:Sapphire laser system at OSU to achieve peak focal intensities exceeding 1022 W/cm2, Patrick Poole, The Ohio State University, United States
FWP3 - Ultra- High Pulse Intensity Amplification and Compression in Plasma, Szymon Suckewer, Princeton University, United States
FWP4 - Manipulation of the Laser Properties through Guiding in Plasma Channels, J. van Tilborg, Lawrence Berkeley National Laboratory, United States
FWP5 - Modelling Intense Laser Plasma Processes - Bridging the Gap Between Microscopic and Macroscopic Phenomena, Charles Varin, Université d'Ottawa, Canada
FWP6 - Seeded Femtosecond Supercontinua in Various Media, David Hagan, University of Central Florida, United States
Beam Shaping and Propagation, Laser Cavity Design III
FWR1 - Simple Models for Focused Fields, Miguel Alonso, University of Rochester, United States
FWR2 - Airy beams: the (1+1)D non-diffracting Bessel beams, Sabino Chavez-Cerda, ESFM-IPN, INAOE, Mexico
FWR3 - Sub-wavelength Focal Dark Channel Generated in Tight Focusing of Azimuthally Polarized Beams, Jixiong Pu, Huaqiao Univ, China
FWR4 - Generation of Vortex Beams by Twisted Nonlinear Photonic Crystals, Noa Bloch, Tel Aviv University, Israel
FWR5 - All-Optical Shaping of Nonlinear Vortex Beams, Keren Simhony, Tel Aviv University, Israel
FWR6 - Phase Locking Large Arrays of Lasers via a Single Degenerate Cavity, Micha Nixon, Weizmann Institute of Science, Israel
FWR7 - Closed Loop Feedback Beam Shaping Using the Thermo-Optic Effect, Zhanwei Liu, University of Florida, United States
Novel Sensors and Applications I
FWT1 - New Class of Fiber Characterization Techniques Based on Spatial Gating of Nonlinearity, Evgeny Myslivets, University of California San Diego, United States
FWT3 - Infiltration-free Photonic Bandgap Fiber Sensor, Mandy Yu, SIMTech, Singapore
FWT4 - New Developments in Fiber-Laser Frequency Combs, Ingmar Hartl, IMRA America, United States
Novel Photonic and Plasmonic Nanostructures
FWW1 - Bio-Inspired Photonic Nanostructures and Lasers, Hui Cao, Yale University, Yale University, United States
FWW2 - Design Methodology for Compact Photonic Crystal Wavelength Division Multiplexers, Victor Liu, Stanford University, United States
FWW3 - Hybridization of Photonic Crystal Cavities and Surface Plasmons, Xiaodong Yang, University of California, Berkeley, Lawrence Berkeley National Laboratory, United States
FWW4 - Enhancement of Light Absorption in Subwavelength Plasmonic Slits by Optical Microcavities, Georgios Veronis, Louisiana State University, United States
FWW5 - Electrically-Injected Nano-Spin Vcsels: Design Principles and Applications, Alan Shore, Bangor University, United Kingdom
Quantum Computation and Communication I
FWY2 - Parity Detection for Heisenberg-limited Metrology with Coherent and Squeezed Vacuum Light, Kaushik Seshadreesan, Louisiana State University, United States
FWY3 - From the Parametric Down-Conversion to the Raman Scattering: Nonlinear and Quantum Phenomena in Lossy Media, Radoslaw Chrapkiewicz, University of Warsaw, Poland
FWY4 - Perfect Quantum Communication with Very Noisy Gaussian Optical Fiber Channels, Laszlo Gyongyosi, Budapest University of Technology and Economics, Hungary
Nonlinear Optics in Micro/Nano Optical Structures II
FThA1 - A Quantum Theory of Four-Wave Mixing in Grapheme, Zheshen Zhang, Georgia Tech Lorraine, Georgia Institute of Technology, France
FThA2 - Nanoscale Coherent Perfect Absorber of Light, Heeso Noh, Yale University, United States
FThA3 - 1- and 2-Photon Absorption with Cold Rubidium Using an Optical Nanofiber, Laura Russell, University College Cork, University of Kwazulu-Natal, Ireland
FThA4 - Optofluidic Lasers and Their Applications in Highly Sensitive Intra-Cavity Biomolecular Detection, Xudong Fan, University of Michigan, United States
FThA5 - Second Harmonic Generation In CVD Graphene Induced by DC Electric Current, Anton Bykov, M.V. Lomonosov Moscow State University, Russian Federation
FThA6 - Size Distribution Effects on the Optical Properties of Gold Nanoparticles Synthesized by Polyol Process, Arun Thirumurugan, National Institute of Technology, India
FThA7 - Observation of Self-Trapping of Light in “Air-Bubble”-Type Nonlinear Nano-Suspensions, Weining Man, San Francisco State Univ, United States
Laser-Based Radiation Therapy and Enabling Sources
FThB1 - Prospects for Laser-Driven Ion Beam Therapy, T. Cowan, FZ Dresden-Rossendorf, Germany
FThB2 - Laser Plasma Accelerators for Cancer Treatment, Victor Malka, ENSTA, X, CNRS, France
FThB3 - Providing Thin-Disk Technology for High Laser Pulse Energy at High Average Power, Robert Jung, Max Born Institute, Germany
FThB4 - Comparative Study on the Temperature Dependent Emission Cross Section of Nd:YAG, Nd:YVO4, and Nd:GdVO4, Yoichi Sato, Institute for Molecular Science, Japan
Quantum Computation and Communication II
FThE1 - Quantum Optical Interface for Atoms and Electro-Mechanical Systems, Eugene S. Polzik, Copenhagen University, Denmark
FThE2 - Non-Markovian Spontaneous Emission from a Single Quantum Dot, Kristian Madsen, Technical University of Denmark, Denmark
FThE3 - A Study of Multipartite Entanglement Using Hyperentangled Photons, Aditya Sharma, University of Illinois at Urbana-Champaign, United States
FThE4 - Quantum Random Bit Generation Using Degenerate Optical Parametric Oscillator, Alireza Marandi, Stanford University, United States
FThE5 - On-chip Spectrally-Bright Photon-Pair Source from SiN Ring Micro-cavity, Alessandro Farsi, Cornell Uniuversity, United States
FThE6 - Direct Measurement of the Wavefunction of a Single Photon, Charles Bamber, National Research Council Canada, Canada
Progress in Digital Holography I
FThG2 - Sub-Diffraction Limited Pattering via Optical Saturable Transformations, Precious Cantu, University of Utah, United States
FThG3 - Creating 3D Lattice Patterns Using Programmable Dammann Gratings, Jeffrey Davis, San Diego State University, United States
FThG4 - Experimental Realization of 3D Clustered Speckle Field Simulation: An Approach to Optical Trapping, Juan Pablo Staforelli, Center for Optics and Photonics (CEFOP), Chile
FThG5 - Vortex Sensing Diffraction Gratings, Jeffrey Davis, San Diego State University, United States
FThG7 - Measuring the Orbital Angular Momentum Density for a Superposition of Bessel Beams, Andrew Forbes, CSIR National Laser Centre, University of KwaZulu-Natal, South Africa
Frequency Combs-II-Applications
FThH3 - Absolute Distance Measurement Using Long-Path Heterodyne Interferometer with Optical Frequency Comb, Xiaonan Wang, The University of Tokyo, Japan
FThH4 - Mid-IR Frequency Combs: Transforming Molecular Spectroscopy as we know it, Evgeni Sorokin, Vienna University of Technology, Germany
FThH5 - Theory of Molecular Cooling Using Optical Frequency Combs in the Presence of Decoherence, Svetlana Malinovskaya, Stevens institute of Technology, United States
FThH6 - Interferometric Estimation of the Offset-Frequency of Optical Frequency Comb, Hirokazu Matsumoto, The University of Tokyo, Japan
Metamaterials
FThI2 - Plasmonic Metamaterials for Optical Wavefront Control, Ann Roberts, The University of Melbourne, Australia
FThI3 - Parametric Maps of Extraordinary Optical Transmission through Arrays of Metallic Nanoscale Slits, Jaewoong Yoon, University of Texas at Arlington, Hanyang University, United States, Republic of Korea
FThI4 - Fabrication of Large Periodic Arrays of Plasmonic Nanostructures Applying Inverse Templates, Jaewoong Yoon, University of Texas at Arlington, Hanyang University, United States, Republic of Korea
FThI5 - Light Focusing by Planar Array of Antennas, Babak Memarzadeh, Northeastern University, United States
Optical Design with Unconventional Polarization II
FThJ1 - Radial Polarisation Beams in Nanophotonics, Min Gu, Swinburne University of Technology, Australia
FThJ2 - Polarization Properties of Suspended Si:Ga Nanowires, Michael Theisen, University of Rochester, University Of Rochester, United States
FThJ4 - The Pancharatnam-Berry Phase for Non-Cyclic Polarization Changes, Taco Visser, Delft University of Technology, VU University, Netherlands
FThJ5 - Phase Anomaly and Phase Singularities of the Field in the Focal Region of High-Numerical Aperture Systems, Taco Visser, Delft University of Technology, VU University, Netherlands
Image-Based Wavefront Sensing and Adaptive Optics II
FThK1 - Commissioning and Optical Control for JWST, Scott Acton, , United States
Pending author approval.
FThK2 - Iterative Transform Phase Diversity: An Object and Wavefront Recovery Algorithm, Jeffrey Smith, NASA Goddard Space Flight Center, United States
Hybrid and III-V Integrated Optics
FThO1 - Organic and Inorganic Crystalline Wires and Thin Films for Hybrid Integrated Optics, Peter Gunter, Nonlinear Optics Laboratory, Swiss Federal Institute of Technology (ETH-Z), Switzerland
Pending author approval.
FThO2 - Fabrication of AlN-GaN-AlN sub-micron waveguide with cleaved facets, Vivek Krishnamurthy, Data Storage Institute, Singapore
FThO3 - Photoluminescence from In0.5Ga0.5P/GaP quantum dots coupled to photonic crystal cavities, Kelley Rivoire, Stanford, United States
FThO4 - Optimised GaN Directional Couplers with Mode Converters, Loyd McKnight, Institute of Photonics, United Kingdom
Nonlinearities in Metamaterials
FThP1 - Ultra-low Energy Optical Self-Amplitude and Phase Modulation in Gold Nano-Apertures, Arash Joushaghani, University of Toronto, Canada
FThP2 - Plasmonic Nanocomposits for Enhanced Four-Wave Mixing Generation, Ekaterina Poutrina, Duke University, United States
FThP3 - Towards Metamaterials with Engineered Nonlinear Optical Properties, Martti Kauranen, Tampere University of Technology, Finland
FThP4 - Second Harmonic Generation for UV Emission from Left Handed Material, Monika Rajput, Delhi Technological University, India
FThP5 - Polarization Properties Of SHG From Chiral G-shaped Nanostructures, Evgeniy Mamonov, Moscow State University, Russian Federation
FThP6 - Metallic Annular Apertures Arrays filled by Lithium Niobate to Enhance Nonlinear Conversion:Theory and Fabrication, Elsie Barakat, FEMTO-ST, UMR 6174 CNRS, France
Optical Design with Unconventional Polarization III
FThQ1 - Imaging Spectrometers and Polarimeters, Michael Kudenov, The University of Arizona, United States
FThQ3 - Collapse and Revival of the Degree of Polarization, Amber Beckley, University of Rochester, United States
FThQ4 - Vector Beam Representation on a Higher Order Poincare Sphere and Higher Order Stokes Parameter Measurement through Optical Angular Momentum Decomposition, Giovani Milione, City College New York, United States
FThQ5 - Vectorial Polarimeter Using An Inhomogeneous Polarization State Generator, Fiona Kenny, National University of Ireland, Galway, Ireland
Quantum Computation and Communication IV
FThS1 - Anderson co-Localization of Spatially Entangled Photons, Bahaa Saleh, University of Central Florida, United States
FThS2 - Interaction-Free All-Optical Switching via Quantum Zeno Blockade, Abijith Kowligy, Northwestern Univ., United States
FThS3 - An Equation of Motion for the Concurrence of 2 Qubit Pure States, Nicolas Quesada, University of Toronto, Canada
FThS4 - Two-Photon Anti-Correlation and Interference with Incoherent Thermal Radiations, Hui Chen, UMBC/GEST, United States
FThS5 - Combined Photon Pair Generation and Quantum Walks in Quadratic Nonlinear Waveguide Arrays, Alexander Solntsev, Australian National University, Australia
FThS6 - Efficient Algorithm for Optimizing Adaptive Quantum Metrology, Barry Sanders, University of Calgary, Canada
FThS7 - Ion-Photon Networks for Scalable Quantum Computing, Susan Clark, University of Maryland, United States
Nonlinear Optics in Micro/Nano Optical Structures III
FThW1 - Two-photon Absorption Spectra of a Near-IR Polymethine Molecule with a Broken Ground-State Symmetry, Honghua Hu, University of Central Florida, United States
FThW2 - BiFeO3 Heterostructures for Electro-Optic Modulators, Daniel Sando, Unité Mixte de Physique CNRS/Thales, France
FThW3 - Diffraction Free Edge States in Optical Graphene, Mikael Rechtsman, Technion - Israel Institute of Technology, Israel
FThW4 - Photonic Crystal Waveguide Electro-Optic Modulator for Ghz Bandwidth Applications, Jianheng Li, Northwestern University, United States
FThW5 - Optical Combs and Photonic RF Oscillators with Whispering-Gallery Mode Microresonators, Vladimir Ilchenko, OEwaves Inc, United States