Name: Novel Optical Materials and Applications (NOMA)
Start: 2022-07-24T0:00:00-04:00
End: 2022-07-28T23:59:00-04:00

Events

Novel Optical Materials and Applications (NOMA)

24 July 2022 – 28 July 2022

The conference will focus on the modeling, design, synthesis, assembly and patterning of optical materials, new optical behavior emerging in these materials, and novel optical devices and applications, including imaging systems, lasers, LEDs, nanoscale devices, quantum photonics, bioinspired optics, biophotonics, waveguides and fibers, sensors, detectors, biomimetic materials, and other new and emerging areas.

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Speakers
Committee
Plenary
Special Events, Symposia, and Special Programs

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Advanced Photonics Congress

Topics

1. Soft and Bioinspired Photonics

Biomimetic materials
Bio-inspired optics
Liquids and soft optical materials
Liquid crystals

2. Nanophotonics

Metamaterials and metasurfaces
Plasmonics
Optical thin films
Nanomaterials

3. Emerging Quantum and Tunable Materials

Phase-change materials
Two-dimensional materials
Materials for quantum photonics

4. Advances in Fabrication and Design

Additive manufacturing and laser-assisted fabrication of materials
Artificially engineered and self-assembled optics
Flexible optoelectronics and photonics

5. Machine learning and Autonomous Design

Machine learning for materials applications
Optimization for materials design
Theory and computations of light-matter interactions

6. Breakthroughs in Traditional Optical Materials

Nonlinear materials
Laser materials
Materials for aerospace applications
Materials for solar and LEDs
Materials for fiber optics
Materials for light detection

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Speakers

Matthias Wuttig, Rheinish Westfalische Tech Hoch Aachen, Germany
Novel Optical Materials by Design: The Role of Chemical Bonding Plenary
Prashant Jain, University of Illinois, United States
Opto-Catalysis Keynote
Nick Kotov, University of Michigan, United States
Polarization Photonics with Chiral Inorganic Nanostructures Keynote
Said Rodriguez, FOM Inst for Atomic & Molecular Physics, Netherlands
Noise, Nonlinearity, and Loss: Limitations or Resources for Optical Sensing? Tutorial
Bozhi Tian, Department of Chemistry, Univ of Chicago
Semiconductor-enabled Bioelectrical Interfaces for Optical Modulation of Cells and Tissues Tutorial
Imad Agha, University of Dayton, United States
Self-assembled Phase Change Materials for Polarization Control at the Nanoscale
Igor Aharonovich, University of Technology Sydney, Australia
Hexagonal Boron Nitride – Emerging Platform for Quantum Photonics
Harry Atwater, California Institute of Technology, United States
Metastructures for Dynamic Wavefront Control
Gilles Bourret, Paris Lodron Universität Salzburg, Austria
Electrochemical Approaches to Engineer Materials' Optical Properties at the Nanoscale
Wenshan Cai, Georgia Institute of Technology, United States
Inversely Designed Meta-System: Beyond the Linear Optical Regime
Wenshan Cai, Georgia Institute of Technology, United States
Inversely Designed Meta-System: Beyond the Linear Optical Regime
Leila Deravi, Northeastern University, United States
Soft Reconfigurable Optical Systems: From Molecules to Machines
Diego Ghezzi, École polytechnique fédérale de Lausanne, Switzerland
Organic Photovoltaics for Artificial Vision: a Translational Research Study
Nathan Gianneschi, Northwestern University, United States
Mimicking Melanin: Color, Function, and the Chemistry of Nature’s Pigment
Hendrik Hoelscher, Karlsruher Institut für Technologie, Germany
Bio-inspired Surfaces with Optical Functionality
Jacob Khurgin, Johns Hopkins University, United States
Title to Be Announced
Alexander Kildishev, Purdue University, United States
Inverse-designed On-chip Integration of Solid-state Quantum Emitters
Nathaniel Kinsey, Virginia Commonwealth University, United States
Epsilon-Near-Zero Nonlinear Optics - So What?
Stephanie Law, University of Delaware, United States
Coupling Among Plasmons in van der Waals Materials
Uriel Levy, Hebrew University of Jerusalem, Israel
Recent Progress in Metasurfaces: from Imaging to Tunability and Light-matter Interactions
Margherita Maiuri, Politecnico di Milano, Italy
Ultrafast All-Optical Reconfigurable Metamaterials
Giulia Marcucci, Apoha Ltd, United Kingdom
Hydro-Photonic-Advantaged Computing Machine by Artificial Neural Networks
Owen Miller, Yale University, United States
Photonic Design Problems as QCQPs
Otto Muskens, University of Southampton, United Kingdom
Deep Learning Enabled Strategies for Modelling of Complex Nanostructures
Moussa N'Gom, Rensselaer Polytechnic Institute, United States
On the Production of Topological Optical Solitons
Willie Padilla, Duke University, United States
Deep Inverse Learning for Photonic Metamaterials
Ulrich Paetzold, Karlsruhe Institute of Technology, Germany
Light Management and Energy Yield in All-Perovskite Tandem Photovoltaics
Benjamin Palmer, Ben Gurion University of the Negev
Highly Reflective Molecular Crystals in Animal Coloration and Vision: Inspiration for New Optical Materials
Aaswath Raman, University of California Los Angeles, United States
Integrating Adjoint Optimization with Deep Learning Approaches for Photonic Inverse Design and Physics Discovery
Bastian Rapp, Karlsruher Institut für Technologie, Germany
“Glassomer,” a Novel Glass Manufacturing Process of Silica with Polymers
Trevor Rhone, Rensselaer Polytechnic Institute, United States
AI Guided Materials Discovery for Microwave-to-optical Photon Transduction
Matthew Shawkey, Universiteit Gent, Belgium
A Rainbow in the Dark: Melanin-based Optical Materials
Maxim Shcherbakov, University of California Irvine, United States
Tunable Photonic Metasurfaces: Fundamentals and Applications
Ergun Simsek, University of Maryland-Baltimore County, United States
Designing Photodetectors with Machine Learning
Karolina Slowik, Uniwersytet Mikolaja Kopernika, Poland
Adatoms on Graphene Nanoantennas: Interplay of Electronic and Optical Coupling
Giuseppe Strangi , Case Western Reserve University, United States
Controlling Ooptical Forces above ENZ Uniaxial Metasurfaces
Hakan Urey, Koc Universitesi, Turkey
Computational Holography and Applications in Displays and Vision Research
ANGELOS XOMALIS, University of Cambridge, United Kingdom
Molecular Optomechanical Springs for Infrared Metasurface Detectors.
Nanfang Yu, Columbia University, United States
Title to be Announced
Zongfu Yu, University of Wisconsin-Madison, United States
Design Large-area Photonic Devices with Machine Learning and Accelerated Computing
Thomas Zentgraf, Universität Paderborn, Germany
Cascaded Metasurface Holography for Optical Secret Sharing
Shuang Zhang, University of Hong Kong, Hong Kong
Title to Be Announced
Darko Zibar, Danmarks Tekniske Universitet, Denmark
Machine Learning Techniques for Optical Frequency Comb Optimization

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Committee

Lynda Busse, US Naval Research Laboratory, United States, Chair
Mikhail Kats, University of Wisconsin-Madison, United States, Chair
Sedat Nizamoglu, Koc Universitesi, Turkey, Chair
Jonathan Fan, Stanford University, United States, Program Chair
Alon Gorodetsky, University of California Irvine, United States, Program Chair
Ishwar Aggarwal, Univ of North Carolina at Charlotte, United States
Andrea Armani, USC, United States
Jennifer Choy, University of Wisconsin-Madison, United States
francesco de angelis, IIT, Italy
Stephen Foulger, Clemson University, United States
Lan Fu, Australian National University, Australia
Patrice Genevet, CNRS, France
Shekhar Guha, US Air Force Research Laboratory, United States
Roman Holovchak, Austin Peay State University, United States
Jonathan Hu, Baylor University, United States
Juejun Hu, Massachusetts Institute of Technology, United States
Garo Khanarian, Consultant, United States
Ho Wai Howard Lee, University of California Irvine, United States
Woei Ming Lee, Australian National University, Australia
Yongmin Liu, Northeastern University, United States
Yu-Jung Lu, Academia Sinica, Taiwan
Arka Majumdar, University of Washington, United States
Feng Miao, Nanjing University
Ann-Katrin Michel, Sensirion AG, Switzerland
Allard Mosk, Universiteit Utrecht, Netherlands
Jason Myers, US Naval Research Laboratory, United States
Richard Osgood, US Army
Tuncay Ozel, Northwestern University
Dario Pisignano, University of Pisa, Italy
Barry Rand, Princeton University, United States
Orad Reshef, University of Ottawa, Canada
Thomas Searles, University of Illinois at Chicago, United States
Brandon Shaw, US Naval Research Laboratory, United States
Yakov Soskind, Meta Platforms, United States
Isabelle Staude, Friedrich-Schiller-University Jena, Germany
David Woolf, Physical Sciences, Inc., United States
Kevin Zawilski, BAE Systems , United States

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Plenary Session

Warwick Bowen

University of Queensland

Absolute Quantum Advantage in Bioimaging

The performance of precision microscopes is constrained by photodamage of biological specimens. We overcome this constraint using quantum-correlated light. This allows bioimaging with clarity beyond what would be possible using coherent light.

About the Speaker

Prof Bowen’s research focuses on the implications of quantum science on precision measurement, and applications of quantum measurement in areas ranging from quantum condensed matter physics to the biosciences. He is a Fellow of the Australian Institute of Physics, Director of the University of Queensland Precision Technologies Translation Hub, and a Theme Leader of the Australian Centre for Engineered Quantum Systems. His lab has significant efforts in using quantum light and quantum-limited technologies to improve biological microscopy. They also have active research efforts on integrated photonics, quantum control of macroscopic mechanical devices, and superfluid helium physics. Prof Bowen’s research is supported by the Australian Research Council, the US Air Force Office of Scientific Research, Lockheed Martin, the US Army Research Office and the Australian Defense Science and Technology Group.

Xi (Vivian) Chen

Nokia Bell Labs

Future Ultra-High Speed Optical Transceivers

Optical transceiver is one of the fundamental building blocks of high-speed optical fiber networks. We review the evolution of optical transceivers in the (short) history of optical fiber communications and share perspectives and view on how future ultra-high speed optical transceivers may look like.

About the Speaker

Xi (Vivian) Chen is the Department Head for Opto-Electronic Subsystems Department at Nokia Bell Labs. She received her Ph.D. degree on optical fiber communication in 2012, from The University of Melbourne in Australia. Her research interests include fiber transmission, modulation format, digital signal processing, ultra-high symbol rate signal generation and detection, etc. She is a senior member if IEEE, and a recipient of Young Investigator Award (2021) from IEEE Photonics Society.

Kei May Lau

Hong Kong University of Science & Technology

III-V Lasers and Photodetectors on Buried Oxides by Lateral MOCVD Growth with Patterned SOI Wafers

For efficient light coupling between active and passive components for Si photonics, we developed the lateral aspect ratio trapping (LART) technology and demonstrated lasers and high-speed photodetectors grown on patterned SOI substrates.

About the Speaker

Kei May Lau is a Chair Professor of Electronic and Computer Engineering at the Hong Kong University of Science & Technology (HKUST). She received her degrees from the University of Minnesota and Rice University and served as a faculty member at the University of Massachusetts/Amherst until 2000. Prof. Lau is a Fellow of the IEEE, OSA, and the Hong Kong Academy of Engineering Sciences. She is also a recipient of the IET J J Thomson medal for Electronics, OSA Nick Holonyak Jr. Award, IEEE Photonics Society Aron Kressel Award, US National Science Foundation (NSF) Faculty Awards for Women (FAW) Scientists and Engineers, and Hong Kong Croucher Senior Research Fellowship. She was an Editor of the IEEE Transactions on Electron Devices (1996-2002) and Electron Device Letters (2016-2019), an Associate Editor for the Journal of Crystal Growth and Applied Physics Letters. Lau’s research work is focused on the development of monolithic integration of semiconductor devices on industry-standard silicon substrates.

Matthias Wuttig

RWTH Aachen University

Novel Optical Materials by Design: The Role of Chemical Bonding

Optical Materials with tunable properties enable a plethora of advanced photonic applications. To fully exploit the potential of this material class, design rules for the corresponding optical properties are desirable. Here, we identify stoichiometry trends in a wide range of chalcogenides and related materials. A quantum-chemical map explains these trends and provides a blueprint to design novel optical materials.

About the Speaker

Developing novel materials is the goal of Matthias Wuttig's work. In doing so, he relies on an unconventional approach, the development of 'treasure maps' to identify promising materials. This has enabled the identification of fundamental relationships between relevant material properties and the underlying chemical bonding mechanism. He is particularly interested in the design of materials for photonic applications, data storage and energy conversion. After his PhD he spent time in Marseille, Tsukuba, Berkeley, Murray Hill (Bell Labs) and the Research center Jülich, before he moved to RWTH Aachen in 1997. There he was speaker of the Strategy Council, Dean of the Faculty of Mathematics, Informatics and Natural Sciences and has been the speaker of the Collaborative Research Center Nanoswitches since 2011. He has received various scientific awards and funding for his work, such as an ERC Advanced Grant.

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Special Events, Symposia and Special Programs

Fiber Modeling and Fabrication Technical Group Rapid-Fire Presentations

Monday, 25 July 12:30 – 13:30

Join the Optica Fiber Modeling and Fabrication Technical Group on Monday for this special event highlighting research being done in this topic area by students and early career professionals. The event will be an opportunity to hear rapid-fire presentations of the work they will present during the congress and network with your colleagues.

Welcome Reception

Monday, 25 July 18:30 – 20:00

Enjoy food and drinks with your friends and colleagues during the congress welcome reception.

LGTBQ+ & Allies Meet & Greet

Tuesday, 26 July 07:00 – 08:00

Join us for some coffee and a snack before the day begins for an informal get together to discuss being LGTBQ+ in STEM and how we can work together to create a more inclusive community. Chair of the Optical Devices & Materials for Solar Energy & Solid-state Lighting topical Klaus Jäger, Helmholtz-Zentrum Berlin, will be on hand to share his thoughts and to hear from you. All are welcome, come meet others in the community and share your thoughts and ideas. For example:

How can everyone be a good LGTBQ+ ally?
How can Optica can do better to help build a more welcoming and inclusive optics and photonics community?
What kinds of programs, trainings or information could Optica explore to help continue to build on existing diversity and inclusion efforts?

From Corporate to Startup: Careers Outside of Academia (CANCELLED)

Tuesday, 26 July 12:00 – 13:30

Curious about what you can do with a STEM degree outside of university? Unclear about the process and opportunities? Join us for the NOMA lunch hour where you will hear about three personal stories on career trajectories outside of academia.

The interactive panel will be split into two parts: first, the panelists will introduce themselves. Afterwards, there will be plenty of time for all your questions.

*This event has been cancelled*

BGPP Reception

Tuesday, 26 July 19:00 – 22:00

Join BGPP attendees and sponsors for a BGPP-only reception at John Mullins Pub in Maastricht. After a welcome beverage and brief welcome, network and enjoy drinks and hot & cold appetizers in this Irish Pub atmosphere.

BGPP-registered attendees only; RSVP required

Sponsored by: CEA, FiSens, TeraXion, Thorlabs, Photonova, FBGs and OFS Fitel

Early-Careers Networking Happy Hour With OPTICA Ambassadors

Tuesday, 26 July 19:00 – 20:00

Optica Ambassadors Tatev Chalyan and Aura Higuera Rodriguez invite Early Career Researchers (ECR), aka postdocs and PhD students, to network and talk about the opportunities and benefits OPTICA provides to ECRs, new programs for younger researchers and the path as Ambassadors in society. Light food and beverages will be served.

Congress Banquet

Wednesday, 27 July 19:00 – 21:00

Join your colleagues for a special evening at the only terraced castle in the Netherlands, Château Neercanne. The banquet requires a separate registraiton. Tickets are available for EUR 100.

International Year of Glass Special Session

In celebration of the 2022 International Year of Glass, please join BGPP, NOMA and NP in this special session dedicated to glass for photonics.

Speakers

Rebecca Dylla-Spears, Lawrence Livermore National Labs, USA
Additive Manufacturing of Multi-Composition Glass Optics
Heike Heike Ebendorff-Heidepriem, University of Adelaide, Australia
Novel glass development for Speciality Optical Fibres
Bastian Rapp, Freiburg University, Germany
“Glassomer,” a Novel Glass Manufacturing Process of Silica with Polymers
Eric Van Stryland, CREOL, USA
Determination of Nuclear and Bound-Electronic Contributions to N-2: Historical Overview

Quantum Communications and Computing Systems

This Joint Symposium is the result of the cooperation between the Networks, SPPCom, and NP topical meetings.

Secure quantum networks and quantum computers are among the hottest R&D topics in the information processing and communications field. Emerging quantum technologies such as the advent of 127-qubit processors, progress in quantum cryptography and quantum key distribution, as well as network connectivity between quantum computers and sensors over quantum networks, have opened up novel application areas. Error correction and fault tolerance, however, still remain very challenging, and do not yet come close to the capabilities of classical systems.

While quantum technology will not eliminate the conventional way of computing and information processing/communication, some problems and applications ask for the specific advantages offered uniquely by quantum technology: The handling of problems beyond-classical computational complexity and speed, as well as quantum security. It is also in this context that optical technologies, and in particular integrated photonics, will play a significant role.

This symposium aims at reporting and discussing trends in practical applications of photonic quantum technologies and fosters the interaction of classical and quantum photonic researchers.

Speakers

Angela Sara Cacciapuoti, University of Naples Federico II, Italy
The Quantum Internet: The Quest for a Network-Paradigm Shift
Marko Loncar, Harvard University, USA
Integrated Quantum Nano Photonics with Lithium Niobate
William Munro, NTT Basic Research Labs, Japan
Photonic Quantum Computing and Tomorrow's Quantum Internet
Prineha Narang, Harvard University, USA
Stefano Pirandola, University of York, UnitedKingdom
Building Quantum-Safe Networks
Sergey Polyakov, NIST, USA
Quantum-Enhanced Data Links
Srinivasan Kartik, NIST, USA
Microresonator Optical parametric Oscillators as a Flexible On-Chip Coherent Light Source
Jelena Vučković, Stanford Univ., USA
Scalable Semiconductor Quantum Systems

Quantum Materials and Fabrication Technologies

This Joint Symposium is the result of the cooperation between the IPR and NOMA topical meetings.

Organizers

Shamsul Arafin, ECE, Ohio State Univ., USA
Matteo Clerici, University of Glasgow, UnitedKingdom
Mikhail Kats, University of Wisconsin-Madison, USA
Masahiro Nada, NTT Device Technology Labs, Japan
Judith Su, Univ. of Arizona, USA
Noelia Vico Trivino, IBM Research-Zurich, Switzerland

Speakers

Igor Aharonich, University of Technology Sydney, Australia
Hexagonal Boron Nitride – Emerging Platform for Quantum Photonics
Andrew Forbes, University of Witwatersrand, SouthAfrica
High-Dimensional Quantum State Engineering with Structured Photons
Gregor Koblmüller, Technische Universität Munchen, Germany
Quantum Nanowire Integrated Photonic Circuits
Karan Mehta, Cornell University, USA
Integrated Photonic Control of Trapped-ion Quantum Systems

SDM Challenges and Perspectives

The sustained traffic growth in the different optical networks segments makes activating additional spatial dimensions essential. Space-division multiplexing (SDM) solutions include multicore fibers, multimode fibers, or cables with a high number of single-mode fibers. SDM transmission can be carried out without channel coupling (e.g., over single-mode fiber bundles or uncoupled multicore fibers) or with channel coupling (e.g., over few-mode fibers or coupled multicore fibers). While uncoupled SDM enables easier integration with the existing transmission, amplification, and detection technologies, coupled transmission can offer component integration gains and cost savings. Uncoupled transmission seems to gain momentum in specific network segments, such as submarine space. On the other hand, the transmission of coupled signals remains a research topic raising interest from new players. This special session will discuss the challenges and perspectives of introducing SDM in optical systems and networks, bringing together experts from industry and academia working in the field.

Organizers

Darli A. A. Mello, Unicamp, Brazil
Filipe M. Ferreira, University College London, UnitedKingdom
Georg Rademacher, NICT, Japan

SDM and Multi-Band Networks: Competing or Complementary Approaches?

In recent years, both new optical fiber transmission windows (O/E/S-band) and new optical fibers carrying orthogonal data channels have been widely explored as technologies to meet the ever-increasing demand for new data services. Broadly termed as "multi-band" or "space-division multiplexing (SDM)" these approaches both cover a range of technologies targeted in a variety of network contexts. In some areas multi-band and SDM technologies may complement each other or exist as part of the same network evolution strategy, whereas in many areas operators may face a direct choice between competing technologies.

In this workshop, we explore the intersection between multi-band and SDM technologies. With a range of expert speakers from industry and academia we aim to identify in which network contexts these approaches lead to competing technologies, if either has clear advantages, and where synergies between them may lie. In addition to exploring the latest research results and trends of these technologies, the workshop also invites operators to give their view on their commercial potential.

Organizers

Ben Puttnam, NICT, Japan
Lidia Galdino, Univ. College of London, UnitedKingdom
Antonio Napoli, Infinera, Germany
Haoshuo Chen, Nokia Bell Labs, USA

Part 1: Components

Jose Enrique Antonio-Lopez, University of Central Florida, USA
Robert Emmerich, Fraunhofer Heinrich-Hertz Inst., Germany
Takeshi Hoshida, Fujitsu Ltd., Japan
Georg Rademacher, NICT, Japan
Lutz Rapp, ADVA SE, Germany
Eric Sillekens, University College London, UnitedKingdom

Part 2: Networks

Lara Garret, TE SubCom, USA
Julia Larikova, Infinera, USA
Sergejs Makovejs, Corning, UnitedKingdom
Yutaka Miyamoto, NTT Corporation, Japan
Ioannis Tomkos, University of Patras, Greece

Symposium in Honor of Nicolaas Bloembergen

Nicolaas Bloembergen was a pioneer and founder of the field of Nonlinear Optics, for which he received the 1981 Nobel Prize in Physics. Among his other remarkable achievements are the proposing and demonstrating of a three-level pumping scheme to achieve population inversion in laser systems, and his research contributions on ultrafast laser interactions with matter. Nonlinear optics became a revolutionary field of optics that has applications in medicine, spectroscopy, information and communication systems, optical metrology, chemical, and biological sensing, and quantum photonics, to name a few. Please join us in celebrating the life and achievements of the Dutch-born physicist and Nobel Laureate, who received his Nobel Prize 40 years ago. We will hear from people who remember working with Nicolaas.

Organizers

Ksenia Dolgaleva, Universtiy of Ottawa, Canada
Sergey Polyakov, NIST, USA

Speakers

Jia-Ming Liu, Univ. of California, Los Angeles, USA
Eric Mazur, MIT, USA
Lewis Rothberg, University of Rochester, USA
Eric Van Stryland, CREOL, USA
Eli Yablonovitch, Univ. of California, Berkeley, USA

Symposium on Machine Learning and Autonomous Design for Photonic Devices

Integrated photonic devices provide a versatile platform for different applications, such as telecommunications, quantum information processing, and biosensing. The design of photonic components promises to improve the efficiency of photonic devices. However, designing integrated photonic components and circuits remains a major challenge due to their complex structures with large combinations of features. Machine learning techniques are capable of modeling and optimizing the response of photonic components much faster than the traditional design methodologies. The novel machine learning design frameworks for photonic devices, such as, artificial neural networks, deep neural networks, and deep generative networks, have generated promising results in designing and modeling integrated photonic devices in recent years.

This symposium will introduce machine learning and autonomous design for photonic devices. It will provide a broad range of insights, including but not limited to artificial neural networks, deep neural networks, deep generative networks, and autonomous design.

Organizers

Jonathan Fan, Stanford Univ., USA
Jonathan Hu, Baylor University, USA

Speakers

Wenshan Cai, Georgia Inst. of Technology, USA
Inversely Designed Meta-System: Beyond the Linear Optical Regime
Rasmus Christiansen, Technical University of Denmark, Denmark
Inverse Design of Photonic Devices Exploiting Extreme Dielectric Confinement of Light
Alexander Kildishev, Purdue University, USA
Inverse-Designed On-Chip Integration of Solid-State Quantum Emitters
Giulia Marcucci, Apoha Ltd, UnitedKingdom
Hydro-Photonic-Advantaged Computing Machine by Artificial Neural Networks
Owen Miller, Yale University, USA
Photonic Design Problems as QCQPs
Otto Muskens, University of Southampton, UnitedKingdom
Deep Learning Enabled Strategies for Modelling of Complex Nanostructures
Willie Padilla, Duke University, USA
Deep Inverse Learning for Photonic Metamaterials
Aaswath Raman, University of California, Los Angeles, USA
Integrating Adjoint Optimization with Deep Learning Approaches for Photonic Inverse Design and Physics Discovery
Ergun Simsek, University of Maryland-Baltimore County, USA
Designing Photodetectors with Machine Learning
Zongfu Yu, University of Wisconsin-Madison, USA
Design Large-area Photonic Devices with Machine Learning and Accelerated Computing
Darko Zibar, Danmarks Tekniske Universitet, Denmark
Machine Learning Techniques for Optical Frequency Comb Optimization

Symposium on Optical Fiber and Grating Based Biomedical Sensors

This Symposium will bring together photonic device designers, physicists and (bio)chemists to review the most advanced optical fiber devices (optical fibers, fiber gratings and other waveguide technologies) able to detect (bio)chemical analytes and/or perform biomedical applications with high sensitivity, selectivity, and robustness, while lowering the limit of detection to levels required in practical applications.

Invited and Contributed talks will focus on tailoring light coupling mechanisms between engineered optical waveguides and their functional surface (if any) in response to external perturbations or surrounding medium changes. Specifically, the aim will be to understand how to optimize the transducing mechanisms to (1) encode the presence of a given analyte in a measurable change in the optical device properties or (2) achieve a specific functionality including tweezing or micro-surgery among others, ensuring in all cases reliability, reproducibility and robustness for in vitro or even in situ applications.

Of particular importance are issues regarding the refractive index modulation, optical properties of the devices, scattering, porosity and thickness of the functional layers and how these parameters can be optimized to enhance the overall performances. Functionalization strategies for bare, metal-coated, oxide-coated or graphene-coated glass and polymer surfaces for Surface Plasmon Resonance (SPR) based sensors or nanoparticle-assisted devices will also be reviewed and discussed.

Organizers

Christophe Caucheteur, Mons University, Belgium
Matthieu Lancry, ICMMO, University Paris Saclay, France

Speakers

Francesco Chiavaioli, National Research Council / IFAC, Italy
Biosensing Using Optical Fibers: Perspectives and Challenges
Andrea Cusano, CeRICT s.c.r.l., Italy
Lab on Fiber Technology: Current Roadmap and Future Trends
Tianliang Li, National University of Singapore, Singapore
Fiber Bragg Grating-Based Surgical Device

Symposium on Recent Advances in Ultrafast Laser Waveguide Writing in Transparent Materials

Organized by BGPP: Roberto Osellame, CNR - Institute for Photonics and Nanotechnologies, Italy; Réal Vallée, COPL, Laval University, Canada

Since the 1996 seminal paper [1], the field of ultrafast laser waveguide writing in transparent materials has grown significantly. Once a lab peculiarity, the method is now used by many start-up companies for real-world applications and has, in many cases, proven competitive to existing and well-entrenched photolithographic approaches. Nevertheless, ultrafast laser waveguide writing remains an intriguing topic for research. On the one hand, it is often the only technique that can produce optical waveguides in many important materials opening up device miniaturisation across different fields. On the other hand, improving our fundamental understanding of the modification mechanism involved with irradiating materials can still provide new and significant improvements to waveguide properties.

This special symposium forms part of the 2022 BGPP Topical Meeting. Submissions reporting on novel results across applications utilizing waveguide writing, from optical communications to quantum optics and astrophotonics, are welcomed. In addition, papers are being solicited to present new insights on the refractive index modification mechanisms and in the demonstration of laser waveguide writing within new materials that have the potential to open additional new applications.

The topics of solicited submissions include but are not limited to waveguide writing for:

Optical communication devices
Quantum photonic applications
Astrophotonic devices
Integrated sensing applications
Fundamental understanding of the refractive index modification
Novel 3D integrated photonic devices
Lab-on-a-chip/Lab-in-a-fiber devices
Fabrication of waveguidesand components in new materials

Organizers

Roberto Osellame, CNR - Institute for Photonics and Nanotechnologies, Italy
Réal Vallée, COPL, Laval University, Canada

Speakers

Xianmin Jin, Shanghai Jiao Tong University, China
3D Photonic Quantum Chip and Large-scale Quantum Information Processing
Stefan Nolte, Friedrich-Schiller-Universität Jena, Germany
Inscription of Silicon Waveguides Using Ultrashort Laser Pulses
Nicholas Psaila, Optoscribe, UnitedKingdom
From Optoscribe Technology to Industrial Perspectives on Femtosecond Laser Direct Writing

Panel Discussion: Energy Crisis and Climate Catastrophe – The Role of Solar Energy

Tuesday, 26 July 18:45 – 19:30

In addition to the growing climate crisis, the past few months have made it painfully clear that European energy independence also has important strategic implications for the future. Numerous studies have shown that photovoltaic technology can supply a significant fraction of the carbon-free electricity that will be needed in the future based on a solar resource that is freely available to most of the Continent. In this panel discussion, we bring together representatives from politics, academia, and industry to discuss the potential of PV to help decarbonize Europe’s energy system and what near-term actions must be taken to realize this goal.

Organizer

Klaus Jaeger, Helmholtz-Zentrum Berlin, Germany

Speakers

Arthur Daemers, Solar Power Europe, Belgium
Ivan Gordon, IMEC, Belgium
Jimmy Melskens, HyET Solar BV, Netherlands

BGPP Industry Session

Wednesday, 27 July 14:30 – 16:00

BGPP 2022 continues the long-standing tradition of addressing fundamental and technical issues of immediate and long-term application of fiber Bragg gratings and other devices fabricated by laser-matter-interaction. While fundamental aspects are covered by invited and contributed proceeding papers, the technical aspect is addressed in the Industry Session.

Speakers from FiSens, Photonova, Inc. and FBGS have been invited to make a 10 min presentation to showcase their advanced products, to explain the underlying technology and working principle. Company professionals that are also presenting scientific work during the conference have been favored. Therefore, the scientists in the auditorium working in closely related areas may get easily into contact with the company professionals for various reasons. Scientist may see how applied research translates into new products and applications. Junior scientists may be stimulated to create tomorrow a start-up in the field or join a company. In this way BGPP encourages greater interaction between the industry professionals and scientist.

Speakers include:
Tristan Kremp, OFS Fitel LLC, USA
Guillaume Laffont, CEA Saclay, France
Sébastien Loranger, PhotoNova, Inc., Canada
Bram Van Hoe, FBGS, Belgium
Christian Waltermann, FiSens GmbH, Germany

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