technical conference · • six days of technical content with an expected 200 invited speakers and...
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A DVA N C E R E G I S T R AT I O N D E A D L I N E : 9 A PR I L 2 0 2 0
Technical Conference
60 Years of Lasers – Pump up the Light
Recognizing Theodore Maiman and the first successful firing of the laser.
Technical Conference: 10 – 15 May 2020
CLEO:EXPO: 12 – 14 May 2020 San Jose McEnery Convention Center San Jose, California, USA
cleoconference.org
San Jose McEnery Convention Center150 West San Carlos Street San Jose, California 95113 USA
Technical Conference10 – 15 May 2020
CLEO:EXPO12 – 14 May 2020
Contents
About CLEO 2
Plenary Speakers 4
Workshops 5
Special Symposia 5
Applications & Technology 5 Topical Reviews
Short Courses 6
Invited Speakers 9
CLEO:EXPO 18
Registration 20
Assistance and Recognition 21
Hotel 21
Key DatesAuthor NotificationsMarch 2020
Postdeadline Paper Submission Deadline8 April 2020
Advance Registration Deadline9 April 2020
Hotel Reservation Deadline20 April 2020
Need Assistance?General Information+1 800 766 4672 (USA/Canada)
+1 202 416 1907 (International)
info@cleoconference org
Registration+1 224 563 3173
cleo@compusystems com
Hotel+1 240 439 2949 (International)
+1 800 465 9101 (USA/Canada)
cleo@experient-inc com
Exhibits and Sponsorships+1 202 416 1428
cleosales@osa org
CommitteesComprised of 350 experts from prestigious, international institutions and companies, the CLEO committee develops comprehensive technical sessions featuring invited and contributed presenters
General Chairs Program Chairs
AP
PLIC
ATION
S &
TECH
NO
LOG
Y
Jin Ung Kang, Johns Hopkins University, USA
Michael M Mielke, Iradion Laser, Inc., USA
Ilko Ilev, Food and Drug Administration (FDA), USA
Stephanie Tomasulo, US Naval Research Laboratory, USA
FUN
DA
ME
NTA
L SC
IEN
CE
J Stewart Aitchison, University of Toronto, Canada
Todd Pittman, University of Maryland Baltimore County, USA
Mercedeh Khajavikhan, CREOL, University of Central Florida, USA
Tracy Northup, University of Innsbruck, Austria
SC
IEN
CE
& IN
NO
VATION
S
Amr Helmy, University of Toronto, Canada
Shinji Yamashita, RCAST, The University of Tokyo, Japan
Rohit Prativadi Prasankumar, Los Alamos National Laboratory, USA
Takasumi Tanabe, Keio University, Japan
cleoconference.org
Why Choose CLEO?CLEO is the premier technical conference on the science and applications of photonics and lasers. It provides exceptional value, offering unparalleled access to 2,000 technical presentations across 29 diverse topic categories.
There are many opportunities for you to present and learn about current research, which is why we’ve worked to make CLEO the highest value technical program.
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Here’s what you’ll receive as an attendee:
Technical Conference• Six days of technical content with an expected 200 invited speakers and
2,000 technical presentations across 29 topical areas
• Two Plenary Sessions featuring four speakers discussing topics such as optical frequency combs, flexible electronics, silicon photons and optical quantum information processing
• More than 20 Tutorials featuring longer, in-depth discussions of select topics
• Eleven Special Symposia comprised of invited and contributed papers on areas of special interest to conference attendees
• Four Applications & Technology Topical Reviews emphasizing significant recent advances in the application of photonic technologies to address current real-world problems
• Two Workshops, where attendees get involved in the discussion of key topics
• 23 half-day Short Courses offering detailed instruction on topics from the fundamental to the highly specialized (additional fee required)
Exhibition• 150 exhibiting companies showcasing the latest products in photonics
technologies from laser systems, optical components, spectroscopic devices and more
• Three days of industry-focused show-floor programming
• Three technical poster sessions
Networking EventsWhen you attend CLEO, you can connect with professionals, presentations and products that are defining the future of lasers and photonics
cleoconference.org
Technical Programs
John Bowers Director of the Institute for Energy Efficiency and Professor, University of California Santa Barbara, USA
Silicon Photonics
Silicon photonics has become a mainstream technology for high-volume, low-cost manufacturing of photonic devices and integrated circuits for a wide variety of applications These include optical transceivers for datacom and telecommunications, navigation including LIDARs and gyroscopes, biomedical sensors including lab on a chip, analog transmission for military or space applications and precision timing/optical clocks Silicon photonic foundries exist on three continents with volumes in the millions of units per year Laser integration on silicon has been commercialized using heterogeneous integration, and prospects look good for epitaxial lasers on silicon Here we give an overview of recent research in the area and prospects for future results
Bill LiuFounder, Chairman and CEO, Royole Corporation, China and USA
The Future of Flexible Electronics
Each leap forward in display and sensor technology has pushed the boundary of our imagination, inspired waves of new-use cases, delivered exciting consumer experiences and unlocked tremendous market opportunities With the flourishing of Internet of Things, or IoT, ubiquitous and multimodal human-machine interactions, or HMI, have become a fundamental catalyst to unleashing the full potential of IoT and to realizing the dream of a world with every ordinary object connected and revitalized This next generation of HMI pivots on the wide adoption of flexible technology In this talk, the technology background and industry trends of flexible technologies, especially fully flexible displays, flexible sensors and their fast-growing applications, will be discussed
Paul Kwiat Professor, University of Illinois at Urbana-Champaign, and Director of Illinois Quantum Information Science and Technology Center (IQUIST), USA
Advanced Resources for Optical Quantum Information Processing — the Next Generation
Although existing optical quantum information processing (QIP) experiments have implemented protocols employing up to 12 or even 20 photons, system inefficiencies have resulted in exceedingly low rates However, recent advances in sources, detectors and memories now hold promise for a new generation of QIP, with enhanced rates and complexity orders of magnitude beyond current capabilities We discuss near-term prospects for multi-photon quantum processing
Kaoru MinoshimaProfessor, The University of Electro-Communications, Japan
Intelligent Optical Synthesizer: Versatile Control of Optical Waves with Frequency Combs Towards Innovative Applications
Versatile control of optical waves has become possible by use of rapidly advancing optical frequency comb technology By full use of comb properties, not only as an ultraprecise frequency ruler in frequency metrology, broad applications, such as direct study of full properties of materials, adaptive sensing and rapid 3D imaging, are opened up
Plenary Sessions
Hear from top scientists about the latest advances in research and applications. The committee has selected speakers who lead their fields to present on key topics of interest to the whole community.
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Workshopscleoconference org/workshops
Topical Workshops provide an atmosphere of open discussion to address topics not covered by traditional presentations, but that are of interest and importance to the CLEO community.
Quantum Networks: Challenges and Opportunities
60 Years of Lasers — Pump Up the Light
Special Symposiacleoconference org/symposia
Special Symposia topics are proposed by CLEO attendees and selected based on their relevance to the conference. A combination of invited and select contributed papers facilitate exploration of subjects from presenters with different backgrounds.
Advances in Topological Photonics
Light by Design: Structured Light, from Theory to Application
Neural Networks I, II & III
Photonic NISQ Technologies
Quantum Biophotonics
SiGeSnPb and Related Compounds: from Mid Infrared Photonics to Quantum Materials and Devices
Single-shot Ultrafast Imaging
Tunable and Nonlinear Optical Metasurfaces: Progresses and Applications
Understanding the Brain with Light
Applications & Technology Topical Reviews
cleoconference org/a-t-reviews
This program on the application and fabrication of the latest photonic technologies is carefully curated by the A&T and Joint Council on Applications committees to cover topics of special significance to the CLEO community. These sessions are comprised of both invited speakers selected for their expertise and contributed talks that have been rigorously peer-reviewed.
Artificial Intelligence for Photonics Imaging and Sensing
Augmented and Virtual Reality: Systems Meet Devices
Optical Technologies for Autonomous Cars and Mobility
Optics and Photonics for Precision Agriculture
cleoconference.org
Short Coursescleoconference org/shortcourses
Get a head start with supplemental Short Courses. Experienced instructors have developed courses catering to a broad range of subjects and educational levels. Small class sizes allow more personalized instruction. Each Short Course requires a separate registration fee.
SUNDAY, 10 MAY
08:30 – 12:30 SC149 Foundations of Nonlinear OpticsRobert Fisher, R. A. Fisher Associates, USA
SC466 Silicon Integrated NanophotonicsYurii A Vlasov, University of Illinois at Urbana-Champaign, USA
SC479 Introduction to Quantum OpticsBahaa Saleh, CREOL, University of Central Florida, USA
SC481 Fundamentals and Applications of VCSELs: A Billion $/Year and Growing Enterprise Kent Choquette, University of Illinois, USA
13:30 – 17:30 SC157 Laser Beam Analysis, Propagation and Spatial Shaping TechniquesJames Leger, University of Minnesota, USA
SC396 Frontiers of Guided Wave Nonlinear OpticsBen Eggleton, University of Sydney, Australia
SC439 Attosecond Optics: From Few-cycle High Power MIR Driving Lasers to Phase-controlled Water Window X-raysZenghu Chang, CREOL, University of Central Florida, USA
SC455 Integrated Photonics for Quantum Information Science and TechnologyDirk Englund, Massachusetts Institute of Technology, USA
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MONDAY, 11 MAY
8:30 – 12:30 SC270 High Power Fiber Lasers and AmplifiersW Andrew Clarkson, Optronics Research Centre, University of Southampton, UK
SC352 Introduction to Ultrafast Pulse Shaping — Principles and ApplicationsMarcos Dantus, Michigan State University, USA
SC410 Finite Element Modeling Methods for Photonics and OpticsArti Agrawal, University of Technology Sydney, Australia
SC475 Metasurface Flat OpticsFederico Capasso, Harvard University, USA
SC476 Quantum Cascade Lasers and Their Role in Producing Optical Frequency CombsJérôme Faist, ETH Zürich, Switzerland
13:30 – 17:30 SC361 Coherent Mid-IR Light: Generation and ApplicationsKonstantin Vodopyanov, CREOL, University of Central Florida, USA
SC362 Cavity Optomechanics: Fundamentals and Applications of Controlling and Measuring Nano- and Micro-mechanical Oscillators with Laser LightTobias Kippenberg, École polytechnique fédérale de Lausanne, Switzerland
SC376 PlasmonicsMark Brongersma, Stanford University, USA
SC378 Introduction to Ultrafast OpticsRick Trebino, Georgia Institute of Technology, USA
SC477 LIDAR and Remote Sensing: An Application-oriented IntroductionFabio Di Teodoro, Raytheon, USA
TUESDAY, 12 MAY
10:30 – 14:30 SC403 NanoCavity Quantum Electrodynamics and ApplicationsJelena Vučković, Stanford University, USA
SC424 Optical Terahertz Science and TechnologyDavid G Cooke, McGill University, Canada
SC438 Photonic MetamaterialsNader Engheta, University of Pennsylvania, USA
SC474 Super-resolution Imaging: Basic Nanoscopy Principles and Its Applications to Biology, Chemistry and Materials Science [NEW]
Kyu Young Han, CREOL, University of Central Florida, USA
SC478 Microresonator-based Optical Frequency Comb and Photonic Waveguide Supercontinuum Sources Tobias Kippenberg, École polytechnique fédérale de Lausanne, Switzerland
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Conference TracksThe CLEO technical program is arranged into 29 topic categories in the core groups of Applications & Technology, Fundamental Science and Science & Innovations.
Within each category, there are relevant tutorial speakers, invited speakers, Short Courses and peer-reviewed technical presentations More than 200 invited speakers and 2,000 contributed paper presentations are expected — providing attendees with a comprehensive program and access to the community’s thought leaders
Applications & Technology (A&T)
Demonstration and application of new evolving optical technologies and instrumentation to address problems in the medical, environmental, energy and manufacturing industrial arenas
A&T 1: Biomedical Applications
A&T 2: Laser-based Micro-machining for Industrial Applications
A&T 3: Optical Instrumentation for Measurements and Monitoring
A&T 4: Applications in Energy and Environment
A&T 5: Quantum Technology in Transition [NEW]
A&T 6: Advances in Semiconductor Technology [NEW]
Fundamental Science
Theoretical and experimental investigation of the fundamental properties of materials, radiation interactions and other physical phenomena using light Representative areas include quantum phenomena, nano-optics and photonics, plasmonics, high-field physics/attoscience and metamaterials/complex media
FS1: Quantum Optics of Atoms, Molecules and Solids
FS2: Quantum Information and Communication
FS3: Quantum Photonics
FS4: Optical Excitations and Ultrafast Phenomena in Condensed Matter
FS5: Nonlinear Optics and Novel Phenomena
FS6: Nano-optics and Plasmonics
FS7: High-field Physics and Attoscience
FS8: Metamaterials and Complex Media
Science and Innovations (S&I)
The early development and demonstration of new optical devices and radiation sources, the use of optical technologies to probe and/or modify materials, environment, etc and the development and application of novel metrology approaches based on optical techniques
S&I 1: Light-matter Interactions and Materials Processing
S&I 2: Laser Systems and Facilities
S&I 3: Semiconductor Lasers
S&I 4: Nonlinear Optical Technologies
S&I 5: Terahertz Science and Technology
S&I 6: Optical Materials, Fabrication and Characterization
S&I 7: Micro- and Nano-photonic Devices
S&I 8: Ultrafast Optics and Applications
S&I 9: Photonic Integration
S&I 10: Photonic Innovations for Biological Sciences
S&I 11: Fiber Photonics: Novel Phenomena, Lasers, Systems and Fabrication
S&I 12: Lightwave Communications and Optical Networks
S&I 13: Active Optical Sensing
S&I 14: Optical Metrology
S&I 15: Quantum and Atomic Devices, and their Applications
cleoconference.org
Applications & Technology (A&T)
A&T 1: Biomedical Applications
Intra-needle Optical Sensor for Real-time Tissue IdentificationJeon Woong Kang, Massachusetts Institute of Technology, USA
Recent Advances and Trends in Ultra-Widefield Ophthalmic ImagingConor Leahy, Carl Zeiss Meditec Inc., USA
Phase Imaging with Computational Specificity (PICS)Gabriel Popescu, University of Illinois at Urbana-Champaign, USA
Femtosecond Laser Induced Hydrophilicity Change in Hydrophobic and Hydrophilic Acrylic Polymer MaterialsRuth Sahler, Perfect Lens, USA
A&T 2: Laser-based Micro-machining for Industrial Applications
Ultrafast Laser Ablation of Silicon with ~GHz BurstsJan Kleinert, MKS|ESI, USA
Controlling Femtosecond Light Propagation through a Multimode Fiber for Imaging, Subtractive and Additive ManufacturingChristophe Moser, École polytechnique federale de Lausanne, Switzerland
Classification of Femtosecond-laser-induced Modifications by LED-array-based Illumination and Machine LearningWataru Watanabe, Ritsumeikan University, Japan
Femtosecond Laser Written Photonics for High Speed TelecommunicationsMichael Withford, Macquarie University, Australia
A&T 3: Optical Instrumentation for Measurements and Monitoring
Progress and Trends in Intracavity Absorption Spectroscopy for Combustion DiagnosticsPeter Fjodorow, Universität Duisburg-Essen, Germany
Industrial Gas Sensing Applications Enabled by Cascade LasersPeter Geiser, NEO Monitors, Norway
Recent Progress In Rapidly Tuned MEMS-VCSELs From Near To Mid-infraredVijaysekhar Jayaraman, Praevium Research, Inc., USA
Single Mode Laser Diodes with 150 nm Tuning Range at 2100 nm and 2300 nmJohannes Koeth, nanoplus Nanosystems and Technologies GmbH, Germany
Compact Automated Lidars for Environmental Remote SensingDavid Sonnenfroh, Physical Sciences Inc., USA
A&T 4: Applications in Energy & Environment
Surface Enhanced Raman Spectroscopy for Aerosol Point Detection Vasanthi Sivaprakasam, US Naval Research Laboratory, USA
Mark Zondlo, Princeton University, USA
A&T 5: Quantum Technology Transition [NEW]
Individual Addressing and Manipulation of Neutral Strontium Benjamin Bloom, Atom Computing, USA
Integrated Platforms for Continuous Variable Quantum OpticsDylan Mahler, Xanadu Quantum Technologies, Canada
Making Quantum Key Distribution Attractive for a Mass MarketImran Khan, Max-Planck-Institut für die Physik des Lichts, Germany
The Quantum Economic Development Consortium (QED-C)Joe Broz, SRI International, USA
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Honeywell’s Trapped-ion Quantum Computer: Advanced Optics Solutions Lora Nugent, Honeywell, USA
Photonic Quantum ComputingMark Thompson, PsiQuantum, USA
Opportunities and Challenges in Implementation of Quantum Sensors in SpaceNan Yu, Jet Propulsion Laboratory, USA
A&T 6: Advances in Semiconductor Technology [NEW]
One-Picosecond Pulses in Edge-Emitting Laser DevicesDmitri Boiko, Centre Suisse d'électronique et de microtechnique Basel, Switzerland
Absorption Enhancement in Terahertz Photoconductive Antenna by Means of the Novel Types of MetamaterialsTatjana Gric, Vilniaus Gedimino technikos universiteta, Lithuania
The Hybrid Technology of Solid-state Laser SystemsRegina Gumenyuk, Tampere University, Finland
Recent Progress Towards Commercial SDLs and Relevant ApplicationsGraeme Malcolm, M Squared Lasers Ltd, UK
Electrically Injected Parity-Time Symmetric DFB Lasers for Telecom ApplicationsAbderrahim Ramdane, Centre de Nanosciences et de Nanotechnologies, CNRS, Université Paris-Sud, Université Paris-Saclay
Laser-Induced Forward-Transfer Printing for High-Speed Precision Assembly of MicrochipsGeert Van Steenberge, Universiteit Gent - IMEC, Belgium
High-brightness Wavelength Stabilized Diode Lasers for Sensor Systems and Non-linear Frequency ConversionBernd Sumpf, Ferdinand-Braun-Institut, Germany
Quantum Engineering of Broadband Quantum Cascade THz Lasers Operating as Random Sources or Fully Stabilized Optical Frequency Comb SynthesizersMiriam Vitiello, Scuola Normale Superiore di Pisa, Italy
cleoconference.org
Fundamental Science
FS 1: Quantum Optics of Atoms, Molecules and SolidsTUTORIAL
Fiber Fabry-Perot Microcavities and Their ApplicationsJakob Reichel, Laboratoire Kastler Brossel, France
Spins in Diamond for Quantum MetrologyHelena Knowles, University of Cambridge, UK
Telecom Quantum Network Nodes Based on Single Er3+ ions in Silicon Nanophotonic DevicesJeff Thompson, Princeton University, USA
FS 2: Quantum Information and CommunicationTUTORIAL
Photonic-based Quantum Communication and Sensing: an Interplay between Fundamental and Technological ResourcesSebastien Tanzilli, CNRS - Université Côte d’Azur, France
Quantum Computing with Silicon PhotonicsMercedes Gimeno-Segovia, PsiQuantum, USA
Atomic Quantum Memory in the Autler-Townes RegimeLindsay LeBlanc, University of Alberta, Canada
Generation of Quantum Light in Silicon NitrideAlberto Politi, University of Southampton, UK
FS 3: Quantum PhotonicsTUTORIAL
Programmable Photonic Circuits for Quantum Information Processing and Machine Learning Dirk Englund, Massachusetts Institute of Technology, USA
Quantum Emitters in Hexagonal Boron NitrideIgor Aharonovich, University of Technology Sydney, Australia
Large-scale Quantum Computing with Quantum TeleportationAkira Furusawa, University of Tokyo, Japan
Photonic Entanglement Sharing and Conclusively Asymmetric Nonlocality with the Detection Loophole ClosedGeoff Pryde, Griffith University, Australia
FS 4: Optical Interactions with Condensed Matter and Ultrafast PhenomenaTUTORIAL
Ultrafast Electron Microscopy and DiffractionClaus Ropers, Georg-August-Universität Göttingen, Germany
THz Emission Spectroscopy of Surface Photogalvanic Effects in a Chiral Weyl SemimetalDarius Torchinsky, Temple University, USA
Amplification of Magneto-Optical Activity via Hybridization with Dark PlasmonsPaolo Vavassori, Nanogune, Spain
FS 5: Nonlinear Optics and Novel PhenomenaTUTORIAL
Non-Hermitian Photonics – the Strange Effects of Gain and LossUlf Peschel, Friedrich-Schiller-Universität Jena, Germany
Unconventional Computing with Liquid LightNatalia Berloff, University of Cambridge and Skoltech, UK
Optical Forces in Complex NanostructuresSimon Hanna, University of Bristol, UK
Nonlinear Vector-Field Microscopy of NanostructuresMartti Kauranen, Tampere University, Finland
Demonstration of High Quantum Cooperativities and Optomechanical Strong Coupling within a Bulk Crystalline Cavity Optomechanical SystemPrashanta Kharel, Yale University, USA
Light Condensation in Multimode FibersAntonio Picozzi, Centre national de la recherche scientifique, France
High-order Dispersion Solitons in Mode-locked LasersAntoine Runge, University of Sydney, Australia
Light-induced Breaking of Time-reversal Symmetry in Nano-optomechanical NetworksEwold Verhagen, AMOLF, Netherlands
FS 6: Nano-optics and PlasmonicsTUTORIAL
Design of Tunable Nanophotonic DevicesHarry Atwater, California Institute of Technology, USA
Watching the Dialogue between Molecules and NanoantennasNiek van Hulst, ICFO – The Institute of Photonic Sciences, Spain
Insights from Single Particle Spectroscopy of Plasmonic NanostructuresStephan Link, Rice University, USA
Flat Optics for Vortex Generation, Multiplexing and LasingChengwei Qiu, National university of Singapore, Singapore and NUS Suzhou Research Institute (NUSRI), China
Single Photons, Spins and Dipoles in van der Waals MaterialsAjit Srivastava, Emory University, USA
Flat Optics for Image ProcessingJason Valentine, Vanderbilt University, USA
FS 7: High-field Physics and AttoscienceTUTORIAL
High-intensity X-ray ScienceRobin Santra, DESY & Universität Hamburg, Germany
Attoclock Experiments on Atomic and Molecular Hydrogen: Tunnelling Time and Electron CorrelationsIgor Litvinyuk, Griffith University, Australia
Attosecond Singularities in Solid State High Harmonic GenerationAyelet Uzan, Weizmann Institute of Science, Israel
FS 8: Metamaterials and Complex MediaTUTORIAL
Hidden and Broken Symmetries for Metamaterial DesignVincenzo Vitelli, University of Chicago, USA
Optical Fourier SurfacesDavid Norris, ETH Zürich, Switzerland
Statistics of Individual Eigenchannels of Diffusive Random MediumAlexey Yamilov, Missouri University of Science & Technology, USA
Science and Innovations (S&I)
S&I 1: Light-matter Interactions and Materials ProcessingTUTORIAL
Light Matter Interactions at Nanoscale for Materials Processing and ManufacturingXianfan Xu, Purdue University, USA
PLD Deposition of HfO2 and PZT Ferroelectric Thin Films for THz ApplicationsMaria Dinescu, NILPRP, Romania
Terahertz Field-Driven Quantum Phase TransitionsKeith Nelson, Massachusetts Institute of Technology, USA
3D Laser Printing: High Resolution and ThroughputSaulius Juodkazis, Swinburne University of Technology, Australia
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S&I 2: Laser Systems and FacilitiesTUTORIAL
Laser Plasma Accelerator: Compact, Competitive and UsefulVictor Malka, Weizmann Institute of Science, Israel
Single-shot Diagnostics Development for High Power Laser Driven Relativistic Plasma Experiments at the Helmholtz-Zentrum Dresden-RossendorfStefan Bock, Helmholtz-Zentrum Dresden-Rossendorf, Germany
10 Hz Petawatt Lasers for Driving Extreme Beams of Particles and Photons for Applications in Science, Industry, and SecurityCeri Brenner, STFC Rutherford Appleton Laboratory, UK
Few Cycle, Phase Controlled Laser Developments for ELI-ALPSKaroly Osvay, University of Szeged, Hungary
High Power Optical Breakdown and Design to Combat Dirt and Airborne ParticlesJoseph Talghader, University of Minnesota Twin Cities, USA
Relativistic NanoplasmonicsLaszlo Veisz, Umeå universitet, Sweden
S&I 3: Semiconductor LasersTUTORIAL
Nanophotonic Lasers in the GaN Material SystemEvelyn Hu, Harvard University, USA
Recent Progress of Narrow Linewidth InP Tunable LasersHiroyuki Ishii, Furukawa Electric Co., Japan
Topological Light Sources Boubacar Kante, University of California Berkeley, USA
High Power VCSEL Amplifier for 3D SensingFumio Koyama, Tokyo Institute of Technology, Japan
Interband Cascade LasersJerry Meyer, US Naval Research Laboratory, USA
Interband Cascade and Quantum Cascade Ring LasersGottfried Strasser, TU Wien, Austria
S&I 4: Nonlinear Optical TechnologiesTUTORIAL
How Light Behaves When the Refractive Index VanishesRobert Boyd, University of Ottawa, Canada and University of Rochester, USA
Ultrashort Laser Pulse-assisted Nonlinear Photonic LatticesCornelia Denz, Westfälische Wilhelms-Universität Münster, Germany
Characterization of Linear and Second Order Nonlinear Optical Properties of SemiconductorsShekhar Guha, US Air Force Research Laboratory, USA
Entanglement Distribution for Quantum NetworksCatherine Lee, Lincoln Laboratory, USA
Mid-infrared Supercontinuum Laser Source Based on Fluorotellurite FibersGuanshi Qin, Jilin University, China
Nonlinear Infrared Photothermal ImagingMichelle Sander, Boston University USA
Stimulated Brillouin Scattering based Optical Signal ProcessingThomas Schneider, Technische Universität Braunschweig, Germany
S&I 5: Terahertz Science and TechnologyTUTORIAL
Nonlinear Lattice Dynamics Driven by Intense Terahertz PulsesMatthias Hoffmann, SLAC National Accelerator Laboratory, USA
Terahertz Quantum Optics in the Time-domain: From Field Correlation Measurements on Vacuum Field Fluctuations in Free Space Towards Cavity Electro-opticsIleana-Cristina Benea-Chelmus, Harvard University , USA
Terahertz Lights up the Nanoscale: Revealing the Nanoscale Optoelectronic Properties of Low-dimensional Materials via Terahertz Spectroscopy and MicroscopyJessica Boland, University of Manchester, UK
Terahertz Quantum Plasmonics at Nanometer and Picometer ScalesDai-Sik Kim, Seoul National University, South Korea
Hot Carriers in Graphene: A Versatile Platform for THz Nonlinear PlasmonicsMartin Mittendorff, Universität Duisburg-Essen, Germany
Field Trials of Photonics Based Terahertz Non-Destructive Testing TechnologiesKyung Hyun Park, Electronics and Telecommunications Research Institute, South Korea
S&I 6: Optical Materials, Fabrication and CharacterizationTUTORIAL
Strong Light-matter Interaction in 2D MaterialsVinod Menon, City University of New York, USA
Efficient Optical Characterization of Solid-state Defects for Quantum Information ScienceLee Bassett, University of Pennsylvania, USA
Band Structure Engineering in SiGeSn/GeSn Heterostructures for Light Emitters on SiDan Buca, Forschungszentrum Jülich GmbH, Germany
What Makes the Best Chip-scale Photonic Sensor?Juejun Hu, Massachusetts Institute of Technology, USA
Measurement and Engineering of Thermal RadiationMikhail Kats, University of Wisconsin-Madison, USA
ß-Ga2O3: MacEtch, Passivation, and Ultra-wide Bandgap Photonic DevicesXiuling Li, University of Illinois, USA
Hot Carrier Optoelectronics with Titanium NitrideRupert Oulton, Imperial College London, UK
S&I 7: Micro- and Nano-photonic DevicesTUTORIAL
Heterogeneously Integrated Photonic Crystal Lasers on Silicon Photonics PlatformShinji Matsuo, NTT Device Technology Laboratories, Japan
Engineering Scalable, High-frequency Resonant Acousto-optic Modulators (AOMs) Using a MEMS Foundry PlatformKrishna Coimbatore Balram, University of Bristol, UK
Chiral Quantum Photonics in Semiconductor Nano-photonic WaveguidesMark Fox, University of Sheffield, UK
Recent Advances in Quantum Topological PhotonicsMohammad Hafezi, Joint Quantum Institute, USA
Active and Tunable Dielectric Nanoantenna DevicesArseniy Kuznetsov, IMRE, A*STAR, Singapore
Integration of III-V on Silicon Gain Devices at the Backside of Silicon-on-Insulator Wafers for Photonic Fully Integrated CircuitsSylvie Menezo, SCINTIL Photonics, France
Hybrid Graphene Chip-based Nonlinear Optical DevicesChristelle Monat, École centrale Lyon, France
Towards Photonic Neuromorphic ProcessingWolfram Pernice, Westfälische Wilhelms-Universität Münster, Germany
Control of Light through the Addition of Deep Subwavelength Features in Photonic CrystalsSharon Weiss, Vanderbilt University, USA
S&I 8: Ultrafast Optics and ApplicationsTUTORIAL
Ultrafast Photonics Time-frequency Signal ProcessingAndrew Weiner, Purdue University, USA
An Evolution to Simplicity: 2D Materials, a Tool to Ultrashort Pulse GenerationThoroh De Souza, Universidade Presbiteriana Mackenzie, Brazil
Advances in Spatial Frequency Modulation Imaging Techniques for Applications from Advanced Manufacturing to the NeurosciencesJeffrey Squier, Colorado School of Mines, USA
Dual-chirped OPA for the Energy Scaling of Near-IR, Mid-IR, and Far-IR PulsesEiji Takahashi, RIKEN, Japan
High-order Harmonic Generation in Femtosecond Laser Micromachined Devices for Ultrafast X-ray SpectroscopyCaterina Vozzi, IFN-CNR, Italy
Attosecond Science using High Average Power and High Peak Power Optical Parametric Chirped Pulse AmplifiersMark Vrakking, Max Born Institute, Germany
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S&I 9: Photonic IntegrationTUTORIAL
Deploying Quantum Cryptography in Telecom NetworksAndrew Shields, Toshiba Research Europe Ltd., UK
Exploring Integrated Photonics with Symmetry and TopologyLiang Feng, University of Pennsylvania, USA
Deep Learning Inference Requirements on Analog Device PerformanceGilbert Hendry, Lightelligence, USA
Novel Optical Fibers for Silicon Photonic Chip PackagingMing-Jun Li, Corning Research & Development Corp, USA
Topological Photonic Crystal Waveguides and ResonatorsNatalia Litchinitser, Duke University, USA
Controlling the Integrated Micro-lasers with Ultrahigh Speed and Ultralow Energy ConsumptionQinghai Song, Harbin Institute of Technology, China
Integrated Quantum PhotonicsJelena Vučković, Stanford University, USA
S&I 10: Photonic Innovations for Biological SciencesTUTORIAL
Optical interrogation of Neurovascular CouplingRamin Pashaie, University of Wisconsin–Milwaukee, USA
Repeated Single Cell Cytometry in an Optofluidic ChipGreg Cooksey, National Institute of Standards and Tech, USA
Multi-parametric Photoacoustic Microscopy: Auscultation of Hemodynamics and Energy Metabolism at the Microscopic LevelSong Hu, Washington University in St. Louis, USA
Sensitive Flow Cytometry Detection of Phospholipases and Its Inhibitors by Hydrolysis of Spherical Supported Lipid MembranesMenake Piyasena, New Mexico Tech, USA
Manipulate Protein Activity and the Blood-Brain Barrier using Light and NanoparticlesZhenpeng Qin, The University of Texas at Dallas and UT Southwestern Medical Center, USA
S&I 11: Fiber Photonics: Novel Phenomena, Lasers, Systems and FabricationTUTORIAL
Perspectives in Nonlinear Guided Wave Optics – New Waveguides, New Sources, New ApplicationsJohn Dudley, Université Bourgogne Franche-Comté and CNRS FEMTO-ST, France
Digital Holographic Endo-microscopes Based on Multimode FibresTomas Cizmar, Leibniz-IPHT, Germany and ISI CAS, Czechia
Optical Fibers: Challenges and Opportunities in SDMDavid DiGiovanni, OFS Laboratories, USA
Space-division Multiplexing Fibers for Microwave Signal ProcessingIvana Gasulla Mestre, Universitat Politècnica de València, Spain
Multispectral Ghost Imaging Using Broadband SupercontinuumGoëry Genty, Tampere University, Finland
Dynamic Mode Coupling In Mode-Division-Multiplexed SystemsJoseph Kahn, Stanford University, USA
Multi-material and Multi-functional Optical Fibers: Fabrication and OpportunitiesFabien Sorin, École polytechnique federale de Lausanne, Switzerland
A Coherent Ising Machine Based on Degenerate Optical Parametric Oscillators Hiroki Takesue, NTT Basic Research Laboratories, Japan
Optical Attosecond Pulses and Bright VUV Generation from Soliton Dynamics in Hollow CapillariesJohn Travers, Heriot-Watt University, UK
Forward Stimulated Brillouin Scattering and its ApplicationsAvi Zadok, Bar-Ilan University, Israel
S&I 12: Lightwave Communications and Optical NetworksTUTORIAL
Towards Cognitive Management and Performance Monitoring in Coherent Optical NetworksChristine Tremblay, École de technologie supérieure, Canada
Phase Sensitive Amplifiers in Fiber-Optic and Free-Space Optical Communication LinksPeter Andrekson, Chalmers tekniska högskola, Sweden
Coherent Architectures for Free-Space Optical CommunicationsDavid Geisler, Massachusetts Institute of Technology Lincoln Lab, USA
Progress and Challenges in bringing SDM Technologies to Optical NetworksWerner Klaus, National Institute of Information & Communications Technology, Japan
Optimized Multicore Amplifiers for Space-Division Multiplexing Transmission SystemsEmmanuel Le Taillandier de Gabory, NEC Corporation, Japan
Approaches to Improve Performance of 60 GHz Radio-0ver-Fiber Fronthaul LinksChristina Lim, University of Melbourne, Australia
300+ Gbps Short-Reach Optical CommunicationsOskars Ozolins, RISE Research Institutes of Sweden AB, Sweden
S&I 13: Active Optical SensingTUTORIAL
Stabilizing Chip-scale Combs and Infrared Sources: a Metrological View on the Molecular WorldPaolo De Natale, Istituto Nazionale di Ottica-CNR, Italy
Single Electron Detection by mid-IR Laser-driven Avalanche BreakdownHoward Milchberg, University of Maryland at College Park, USA
Emerging Femtosecond Laser Sampling Approaches in All-optical Plasma SpectroscopyVassilia Zorba, Lawrence Berkeley National Laboratory, USA
S&I 14: Optical MetrologyTUTORIAL
Quantum Sensors for New-physics DiscoveriesMarianna Safronova, University of Delaware, USA
Optical Frequency Transfer over Submarine FibersCecilia Clivati, INRiM, Italy
Optical Frequency Divider for Spectroscopy and Optical Frequency MeasurementYanyi Jiang, East China Normal University, China
Microcombs Based on Laser Cavity SolitonsAlessia Pasquazi, University of Sussex, UK
Development of Transportable Optical Lattice Clocks for Geodetic ApplicationsMasao Takamoto, RIKEN, Japan
High Precision 2S-8D Spectroscopy in HydrogenDylan Yost, Colorado State University, USA
S&I 15: Quantum and Atomic Devices, and their Applications [NEW]
TUTORIAL
Twenty Years of Optical Frequency Combs: Science, Technology and ApplicationsScott Diddams, National Institute of Standards & Technology, USA
A Compact Frequency Stabilized Laser Based on Gas-filled Hollow-core Fiber Cells with Applications in Satellite-based Gas SensingAnne Curtis, National Physical Laboratory, UK
Rotation Rate Measurements with a Large Area Cold Atom InterferometerArnaud Landragin, Observatoire de Paris, France
Compact Ion Clocks for Navigation ApplicationsJohn Prestage, NASA, USA
Towards Scalable Quantum Computing with Neutral AtomsJonathan Pritchard, Strathclyde University, UK
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cleoconference.org
CLEO:EXPOExperience a leading industry event for applied research and commercial applications. The exhibition attracts companies showcasing cutting-edge products essential to your work — from laser systems and optical components to sensing and test equipment. Three days of show floor programs and networking opportunities provide valuable technical and industry content.
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Exhibition150 exhibitors will be in attendance to introduce their latest and most innovative products and services Meet with representatives to learn, firsthand, how their solutions can benefit your work Browse the exhibitor list at cleoconference.org/exhibitors
Show Floor Programs
Industry FocusA penetrating look at the latest trends in the photonics marketplace and a forum to discuss new products, emerging technologies and markets
Program content is organized around products and services that have played an important role in the industry or have potential as a future business opportunity Key program features include a survey of markets and a review of national photonics initiatives
Technology TransferA half-day event detailing the process of commercializing technology Learn about the licensing process, funding, entrepreneurship, technology transfer and intellectual property The program, comprised of a keynote, a tutorial and a pitch panel, is supplemented by a curated exhibition of license-ready technologies at tabletop displays
Technical SessionsSelect Applications & Technology Topical Reviews will be held in the exhibit hall theaters, offering attendees an insight into new and upcoming applications
Poster SessionsA key part of the CLEO technical program, poster sessions encourage interactions directly with presenters, providing the opportunity to learn more about their research in small group settings Select papers will be presented as Dynamic e-Posters with interactive visual content
Attendee LunchesMaximize your time and networking opportunities with free lunches in the exhibit hall each day — a perfect time to connect with exhibitors and other attendees
cleoconference.org
RegistrationAdvance Registration Deadline: 9 April 2020
CATEGORIES ON OR BEFORE 9 APRIL 2020 (US$)
AFTER 9 APRIL 2020 (US$)
Full Conference
Member * $674 $806 Student Member * $296 $358 Nonmember $1,005 $1,209
Student Nonmember $428 $500
Exhibits Pass Plus ** $0 $0
Half-day Short Courses
Member * $305 $375Nonmember $375 $435Student $80 $90
Conference Access
FULL CONFERENCE
EXHIBITS PASS PLUS
SHORT COURSE ONLY
PROGRAMMING
Plenary Sessions • • •
Technical Sessions (invited and contributed oral talks)
•
Symposia •
Tutorials •
Workshops •
A&T Topical Reviews •
Poster Sessions • • •
Technical Digest (online) •
CLEO:EXPO
Exhibition • • •
A&T Technical Sessions • • •
Complimentary Lunches • • •
Industry-focused Show Floor Programs • • •
EVENTS
Conference Reception •
* Members of the American Physical Society, IEEE Photonics Society and/or The Optical Society
** Exhibits Pass Plus is not for use by presiders, poster presenters or speakers You must register as a Full Conference attendee
HotelHotel Reservation Deadline: 20 April 2020
DISTANCE TO CONVENTION CENTER (MILES)
RATES FROM (PER NIGHT) (US$)
Fairmont San Jose 20 $259
Hilton San Jose 10 $251
Hotel De Anza 50 $297
Hyatt Place San Jose Downtown 20 $252
San Jose Marriott 10 $249
The Westin San Jose 10 $265
Experient is the official housing provider for CLEO Conference organizers have negotiated and contracted with local hotel partners to provide CLEO attendees and exhibitors with affordable hotel room options
The best rooms go first, so don’t delay — secure your accommodations at the official reservation website: cleoconference.org/hotel
San Jose McEnery Convention Center150 West San Carlos Street San Jose, California, 95113 USA
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AssistanceThe CLEO organizers are committed to making the conference family-friendly and accessible – regardless of financial concerns or family obligations. CLEO offers attendees these support options:
Onsite ChildcareFor the duration of the technical conference, complimentary childcare will be available at the convention center for children aged 6 months to 10 years A secure and engaging experience is ensured due to a high staff-to-child ratio
IMPORTANT! You must apply for this service in advance: cleoconference.org/CLEOkids
For Students and Early-career ProfessionalsIf your paper has been accepted, the CLEO co-sponsors encourage you to attend and present your research The experience offers invaluable opportunities to get your work and name in front of an esteemed, international audience — at a career stage when building professional relationships is most essential for future success
Each of the three co-sponsors offer generous grants to a limited number of students to offset travel expenses
You must apply for grants prior to registration: cleoconference.org/grants
• APS Division of Laser Science Grants
• IEEE Photonics Fund Student Travel Grants
• OSA Foundation Incubic/Milton Chang Travel Grant
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