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Novel Optical Materials and Applications

Novel Optical Materials and Applications

28 July 2023 – 01 August 2023 Hyatt Regency, Vancouver British Columbia, British Columbia, British Columbia Canada

 

NOMA addresses new, cutting-edge research in optical materials spanning the spectrum from the ultraviolet through the terahertz region.

This topical meeting focuses 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. 

 

 

Topics

Novel Optical Materials and Applications
  1. Soft and Bioinspired Photonics
    • Biomimetic materials
    • Bio-inspired optics
    • Liquids and soft optical materials
    • Liquid crystals
    • Structural Coloration
       
  2. Nanophotonics and Nanomaterials
    • Metamaterials and metasurfaces
    • Plasmonics
    • Nanostructured optical thin films
    • Chiral materials
    • Infrared material and systems
       
  3. Emerging Quantum and Tunable Materials
    • Phase-change materials
    • Two-dimensional materials
    • Materials for quantum photonics
       
  4. Advances in Fabrication and Design
    • Design of sustainable and recyclable systems
    • 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. Advancements 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
    • Sustainable materials

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Committee Members

  • Lynda Busse, US Naval Research Laboratory, United StatesChair
  • Alon Gorodetsky, University of California Irvine, United StatesChair
  • Lan Fu, Australian National University, AustraliaProgram Chair
  • Jonathan Hu, Baylor University, United StatesProgram Chair
  • Ishwar Aggarwal, Univ of North Carolina at Charlotte, United States
  • francesco de angelis, IIT, Italy
  • Heike Ebendorff-Heidepriem, University of Adelaide, Australia
  • Jonathan Fan, Stanford University, United States
  • Patrice Genevet, CNRS, France
  • Shekhar Guha, US Air Force Research Laboratory, United States
  • Roman Holovchak, Austin Peay State University, United States
  • Juejun Hu, Massachusetts Institute of Technology, United States
  • Mikhail Kats, University of Wisconsin-Madison, United States
  • Garo Khanarian, Consultant, United States
  • Miso Kim, Sungkyunkwan University, Republic Of Korea
  • Ho Wai Howard Lee, University of California Irvine, United States
  • Woei Ming Lee, Australian National University, Australia
  • Zin Lin, Virginia Tech, United States
  • Yongmin Liu, Northeastern University, United States
  • Yu-Jung Lu, Academia Sinica, Taiwan
  • Arka Majumdar, University of Washington, United States
  • Feng Miao, Nanjing University
  • Jason Myers, US Naval Research Laboratory, United States
  • Sedat Nizamoglu, Koc Universitesi, Turkey
  • Richard Osgood, US Army
  • Young S. Park, Ulsan National Inst of Science & Tech, Republic Of Korea
  • Dario Pisignano, Università degli Studi di Pisa, Italy
  • Thomas Searles, University of Illinois at Chicago, United States
  • Kwanyong Seo, UNIST
  • Brandon Shaw, US Naval Research Laboratory, United States
  • Max Shtein, University of Michigan, United States
  • Yakov Soskind, Meta Platforms, United States
  • Silvia Vignolini, University of Cambridge, United Kingdom
  • David Woolf, Physical Sciences, Inc., United States
  • Kevin Zawilski, BAE Systems , United States

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Chairs

Lynda Busse
US Naval Research Laboratory, United States
Chair

Alon Gorodetsky
University of California Irvine, United States
Chair

Lan Fu
Australian National University, Australia
Program Chair

Jonathan Hu
Baylor University, United States
Program Chair

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Speakers

  • Nam-Gyu Park, Sungkyunkwan UniversityRepublic Of Korea
    Perovskite Solar Cell: History, Progress and Perspective  Plenary
  • Angèle Reinders, Technische Universiteit EindhovenNetherlands
    Performance, Degradation and Reliability of Silicon PV Systems Under Outdoor Conditions Plenary
  • R. Biswas, Iowa State UniversityUnited States
    Nanostructures for Controlling and Manipulating Light in Optoelectronics
  • Andrea Cattoni, Politecnico di MilanoItaly
    Light Management in Ultra-thin and Tandem Solar Cells
  • Hyosung Choi, Hanyang UniversityRepublic Of Korea
    Surface Passivator of Perovskite Nanocrystals for High-Performance Optoelectronics
  • Aaron Danner, National University of SingaporeSingapore
    Ultra-thin Silicon Solar Cells and Their Use in Quadcopter Drones
  • Bumjoon Kim, Korea Advanced Inst of Science & TechRepublic Of Korea
    Material Design for Stretchable and Efficient Polymer Solar Cells
  • Changsoon Kim, Seoul National UniversityRepublic Of Korea
    Circularly Polarized Organic Light-emitting Devices and Photodetectors
  • Gi-Hwan Kim, Gyeongsang National UniversityRepublic Of Korea
    Post-Treatment for Perovskite Nanocrystal for Perovskite LEDs
  • Ji-seon Kim, Imperial College London
    Key Impact of Molecular Structure and Orientation of Non-Fullerene Acceptors on Organic Photoconversion Devices
  • Jung-Yong Lee, Korea Advanced Inst of Science & TechRepublic Of Korea
    All-In-One Process for High-Resolution Patterning of Perovskite Quantum Dot Light-Emitting Diodes
  • Jyotirmoy Mandal, Princeton UniversityUnited States
    Passive Radiative Cooling of Buildings and Cities: Science and Design Considerations for Large Scale Usage
  • Michele Saba, Università di CagliariItaly
    From Polarons to Polaritons, the Ultrafast Photophysics of Hybrid Perovskites for Solar Cells and LEDs
  • Sang Il Seok, Ulsan National Inst of Science & TechRepublic Of Korea
    Engineering Perovskite Layer Growth for Improved Performance of Solar Cells
  • Dong Hee Son, Texas A&M UniversityUnited States
    Auger Upconversion of Energetic Hot Electron in Mn-doped Quantum Dots Under Weak Visible Light and Its Photocatalytic Application
  • Jooyoung Sung, DGISTRepublic Of Korea
    Deciphering Hidden Charge Carrier Dynamics in Perovskite Thin Films with fs-Microscopy
  • Hsinhan Tsai, University of California BerkeleyUnited States
    Metal−Organic Frameworks As a Platform for Cooperative Direct Air Capture of Carbon Dioxide
  • Mathis Van de Voorde, University of TwenteNetherlands
    Free-Space Diffused Light Collimation and Concentration
  • Ken-Tsung Wong, National Taiwan UniversityTaiwan
    Exciplex-forming Systems for High Efficiency OLEDs
  • Youngmin You, Yonsei UniversityRepublic Of Korea
    Understanding the Chemical Mechanism for Short Operational Lifetime of Organic Light-Emitting Devices

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Plenary Session

Nam-Gyu Park

Sungkyunkwan University

Perovskite Solar Cell: History, Progress and Perspective
In 2012, a seminal report was published on the 9.7% efficient and 500h-stable solid-state perovskite solar cell (PSC) based on methylammonium lead iodide. Since then, power conversion efficiency (PCE) has swiftly increased to over 25% due to the unique photophysical property of halide perovskite. According to the Web of Science, more than 31,000 papers on PSCs have been published since 2012. PSC is regarded as a game changer in photovoltaics because its low-cost and high efficiency surpasses conventional high-efficiency thin-film technologies. High photovoltaic performance has been realized by compositional engineering, device architecture, and fabrication methodologies for a decade. In order to reach theoretical efficiency of over 30% and long-term stability, exquisite control of light management and photo-excited charges are required, as well as thermodynamic phase stability.This talk briefly introduces the history and progress of PSCs. At the same time, an approach toward stable and higher efficiency PSCs, the important practice of facet engineering of perovskite films, will also be discussed.


About the Speaker
Nam-Gyu Park is a Distinguished Professor of the School of Chemical Engineering and Director of SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University (SKKU). He received his BS degree in chemical education, MS and PhD degrees in chemistry from Seoul National University in 1988, 1992 and 1995 respectively. He worked as a postdoctoral researcher at ICMCB-CNRS, France, from 1996 to 1997 and at National Renewable Energy Laboratory, USA, from 1997 to 1999. He was director of the solar cell research center at the Korea Institute of Science and Technology (KIST) from 2005 to 2009 and principal scientist at Electronics and Telecommunications Research Institute (ETRI) from 2000 to 2005 before joining SKKU as a full professor in 2009. He is a fellow of the Korean Academy of Science and Technology (KAST) since 2017. He has been working on high-efficiency mesoscopic nanostructured solar cells since 1997. He is a pioneer of solid-state perovskite solar cell, which was first developed in 2012. He was selected as Citation Laureate (top 0.01% scientist), a New Class of Nobel Prize-Worthy Scientist on 20 September 2017 and included in highly-cited researchers (HCR, top 1% scientists) in 2017, 2018, 2019, 2020, 2021 and 2022 by Clarivate Analytics. He has received many awards, including the Scientist Award of the Month (2008), KIST Award of the Year (2009), Dupont Science and Technology Award (2010), SKKU fellowship (three times in 2013, 2018, and 2021), PVSEC Hamakawa Award (2015), Dukmyung KAST Engineering Award (2016), ACS-KCS Excellence Award (2018), Ho-Am Prize (Samsung, 2018) and Rank Prize (U.K., 2022). Prof. Park currently has more than 370 refereed publications and more than 70 patents. He received an H-index of 108. He is currently the Senior Editor of ACS Energy Letters.


Joyce Poon

Max Planck Institute of Microstructure Physics

Visible Light Integrated Photonics for Neurotechnology
Abstract available soon.

About the Speaker
Joyce Poon is a Professor of Electrical and Computer Engineering at the University of Toronto, Director of the Max Planck Institute for Microstructure Physics and Honorary Professor of Electrical Engineering and Computer Science at the Technical University of Berlin. She and her team specialize in integrated photonic devices and circuits for communications and neurotechnology. She received her PhD and MS in Electrical Engineering from the California Institute of Technology in 2007 and 2003 respectively, and a BASc in Engineering Science (physics option) from the University of Toronto in 2002.

 

Angèle Reinders

Eindhoven University of Technology

Performance, Degradation and Reliability of Silicon PV Systems Under Outdoor Conditions
On the basis of long term monitoring of the energy performance of monitored PV systems in relation to degradation and failure modes, it is found that there there exists a great potential for performance improvements. The study has a focus on the most dominant technology among installed PV modules, namely silicon PV.

About the Speaker
Angèle Reinders is a professor at the Eindhoven University of Technology (TU/e) in the Netherlands and the director of Solliance, the international partnership in PV research involving, among others, TU/e, imec, FZJ, TNO. She aims at the optimal use and integration of solar energy technologies in products, buildings, automotive and infrastructures by means of technology development, simulation, prototyping and testing. Her interests range from luminescent solar concentrator photovoltaics to performance analysis of PV systems to PV-electrolysis of hydrogen. She is known for her books, co-founded IEEE Journal of Photovoltaics, and has written about 200 publications. Angèle studied experimental physics at Utrecht University.

 

Mark Stephen

NASA

Optic and Integrated Photonic Lidars and Remote-Sensors in Space-Based Applications
NASA applications of optics and integrated photonics in space applications include remote sensors and LIDAR.  We will review recent progress on key technology developments and mission results and explore the future outlook for integrating novel technologies into the next generation of space instruments.


About the Speaker
Mark Stephen received a BS in Physics from the University of Delaware in 1992 and MS and PhD in Applied Physics from the University of Maryland Baltimore County in 2002 and 2008, respectively. He has been employed at NASA’s Goddard Space Flight Center since 1991 where he does Laser and Electro-Optics research and development in the Instrument Systems and Technology Division. His research activities have included lasers, electro-optics, optical components and laser instruments. Mark Stephen has worked on several satellite instruments including the Geoscience Laser Altimeter System (GLAS), the Mercury Laser Altimeter (MLA) and the Lunar Orbiter Laser Altimeter (LOLA). He leads the product development for the Advanced Technology Laser Altimeter System (ATLAS) Laser, which is currently flying aboard ICESat-2. He is currently developing integrated photonics technology for NASA applications and other cutting edge technologies. He has published over a hundred publications and holds four patents.

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The congress will present several symposia and special sessions, which supplement Technical Sessions.

2023 Special Programs

Workshop: Ultrafast Signal Processing by Combined Photonic-Electronic Integrated Systems: Where, Why and When?

Sunday, 09 July 15:00 – 18:00
Banquet Hall 2

Ultra-fast and energy-efficient information processing is required in many applications, such as communication systems, cloud computing, artificial intelligence, smart factory, instrumentation and medical technology. Today optical and electronic circuits are still mostly separated domains. In the recent past, however, photonic-electronic integration has developed rapidly based on either Silicon photonics or Indium-Phosphide technology platforms. Such combined nanophotonic-nanoelectronic circuits and systems will significantly increase signal processing speeds and enable novel system concepts. The close proximity between optics and electronics will also reduce energy consumption and size.

This workshop investigates how combined photonic-electronic signal processing and photonic-electronic integration technologies can overcome the drawbacks mentioned above and pave the way to completely new system concepts. Presenters will discuss examples of future combined signal processing circuits, challenges and limitations.

Organizers

Stephan Pachnicke, Kiel University, Germamy
Patrick Runge, Fraunhofer HHI, Germany

Presenters
  • Stefano Grillanda, Nokia Bell Labs, USA
    Short‐Reach Communications with High‐Speed Surface‐Normal Electroabsorption Modulators
  • Shinsuke Tanaka, Fujitsu, Japan
    Advanced Optical Frontend Architecture for Energy‐Efficient Coherent Transceivers
  • Kyoungsik Yu, KAIST, KR
    High‐Speed Photonic Signal Generation and Detection Using Silicon‐Based Photonic Integrated Circuits
  • Munehiko Nagatani, NTT, Japan
    Ultra‐Broadband AMUX/ADEMUX ICs and Electro‐Optical Hybrid Packaging Technology Toward 200‐GBaud Signal Transmission
  • Jakob Finkbeiner, University of Stuttgart, Germany
    Monolithically Integrated Optoelectronic Receiver Front‐Ends
  • Raik Elster, University of Stuttgart, Germany
    Versatile Optical Frequency Comb Generation: Modelling Silicon‐Organic Hybrid Phase Shifters
  • Patrick Runge, Fraunhofer Institute, Germany
    Optic‐Electronic‐Optic Interferometer
  • Gregor Ronninger, TU Berlin, Germany
    Ultra‐Broadband Inter‐band Converters Based on Multi‐Mode Waveguides
  • Andrea Zazzi, RWTH Aachen, Germany
    Photonically‐Enabled ADC: Architectures, Limitations and Roadmap to Integration
  • Olaf Schulz, Kiel University, Germany
    Nonlinear Fourier Transform Based WDM Transmission Using Electronic‐Photonic Signal Processing

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Workshop: AI and Digital Twin for Transforming Optical Networks: What They Can and Cannot Do? - Session One

Sunday, 09 July 15:00 – 16:15
Banquet Hall 3

Digital transformation of societies requires optical communication networks to support the enormous increase of traffic with challenging service requirements in an autonomous, reliable, trustworthy, secure and sustainable manner. Moreover, the optical communication ecosystem itself is transforming from static, closed and often manually-operated, vendor-locked systems to elastic open and disaggregated optical networks. The autonomous operation of such a dynamic, multi-vendor, multi-domain and open networking infrastructure is becoming a challenging hurdle, requiring exceptional interoperability, cooperation and intelligence in various levels of its networking stack.

AI has become an inevitable tool to contribute to this transition. In addition, Digital Twins (DTs) of optical networks have attracted remarkable attention to facilitate the smooth interaction between AI and physical network entities.

This workshop offers an agora (i.e., open space) to discuss the realization of AI-assisted disaggregated optical networks, its near-term use cases and unexplored challenges. Moreover, it brings together experts to discuss the envisioned role of DTs in addressing the key issues of our industry.

The workshop is structured in two sessions and concludes with a panel discussion. 

Session One: AI for Network Automation

Automating disaggregated optical networks is an extremely challenging task, requiring powerful tools such as AI to address it. Incorporating AI-assisted solutions in the operation of the networks requires trusted and pre-trained models and real-time (on-demand) availability of telemetry data for their execution. Considering the tremendous amount of telemetry data each network element could produce and the resources required to store and process them, it is necessary to decide what to, when to and how to collect for each particular use case. Under these circumstances:

  • What are the key areas in which AI can significantly transform the status quo?
  • Will AI bring substantial benefits that justify the enormous resources required?
  • Where will we see the early adoption of AI in live optical networks?
  • What are the challenges of its adoption for disaggregated optical networks?
  • Shall we expect a cooperative eco-system where different players (vendors/operators) share/trade their data/models under pre-defined terms and conditions?
  • Could we expect a data/model marketplace among different players?
Organizers

Patricia Layec, Nokia Bell Labs, France
Behnam Shariati, Fraunhofer HHI, Germany
Yuki Yoshida, NICT, Japan

Presenters
  • Paolo Monti, Chalmers University of Technology, Sweden
  • Dan Kilper, Trinity College Dublin, Ireland
  • Jasper Müller, Adtran, Germany
  • Mara Scalioni, Cisco, Australia
  • Nicola Sambo, Scuola Superiore Sant'Anna, Italy

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Workshop: AI and Digital Twin for Transforming Optical Networks: What They Can and Cannot Do? - Session Two

Sunday, 09 July 16:30 – 17:45
Banquet Hall 3

Digital transformation of societies requires optical communication networks to support the enormous increase of traffic with challenging service requirements in an autonomous, reliable, trustworthy, secure and sustainable manner. Moreover, the optical communication ecosystem itself is transforming from static, closed and often manually-operated, vendor-locked systems to elastic open and disaggregated optical networks. The autonomous operation of such a dynamic, multi-vendor, multi-domain and open networking infrastructure is becoming a challenging hurdle, requiring exceptional interoperability, cooperation and intelligence in various levels of its networking stack.

AI has become an inevitable tool to contribute to this transition. In addition, Digital Twins (DTs) of optical networks have attracted remarkable attention to facilitate the smooth interaction between AI and physical network entities.

This workshop offers an agora (i.e., open space) to discuss the realization of AI-assisted disaggregated optical networks, its near-term use cases and unexplored challenges. Moreover, it brings together experts to discuss the envisioned role of DTs in addressing the key issues of our industry.

The workshop is structured in two sessions and concludes with a panel discussion. 

Session Two: Digital Twin for Network Transformation

DT is a multiphysics, multiscale, probabilistic, ultra-fidelity simulation that reflects the status of a corresponding physical system based on historical data, real-time sensor data and expert knowledge. DT of optical networks and network entities will greatly accelerate the interaction and convergence between the AI-assisted virtual planning platform and the physical network. The second half of the workshop reviews the recent developments of DT technology in the optical network field and examines the outlook for the optical network DT. Some of the topics to be explored include:

  • What is the status of DT technology for optical networks?
  • What are the role and requirements for the optical network DT?
  • How to model and implement DTs?
  • When do the conventional network/transmission simulators and the monitors evolve into DT?
  • When does the physical layer meet the DT?
  • What would be the role of DTs at the sub-system level?
  • How would it affect the sub-system design?
Presenters
  • Takeo Sasai, NTT, Japan
  • Shoichiro Oda, Fujitsu, Japan
  • Danshi Wang, Beijing University of Posts and Telecommunications (BUPT), China
  • Vignesh Karunakaran, ADVA Optical Networking , Germany
  • Yue-Kai Huang, NEC Labs, USA
  • Haoshuo Chen, Nokia Bell Labs, USA

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Symposium on Sustainability in Optics

Monday, 10 July 08:30 – 16:00

In an age of great ecological crises, such as the climate or pollution crisis, we want to take a closer look at how these issues are related to optics. Therefore, representatives of the Optica Novel Optical Materials and Applications (NOMA) and Solar Energy and Light-Emitting Devices (SOLED) Topical Meetings are organizing a Symposium on Sustainability in Optics.

In this symposium, we will address the following topics:

  • Solar Energy — one of, if not the most important renewable energy technologies.
  • Sustainable Materials and Manufacturing — we aim to take a special look at industry.
  • Recycling — of utmost importance in a sustainable circular economy where the requirement for new planetary resources is minimized.

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Joint Symposium on Neuromorphic Photonics and Optical Computing

Monday, 10 July 08:30 – 16:00

Jointly held by the Networks and IPR Topical Meetings

Integrated photonic technologies, with their tremendous potential of delivering large bandwidths and unmatched parallelization capabilities at low power consumptions, as well as their widely successful commercialization in recent years, have enabled several modern optical computing applications. In particular, neuromorphic photonics is one of the most viable and promising solutions for addressing the needs and bottlenecks of modern AI applications. Meanwhile, although very impressive R&D results have been presented within a very short period of time by various groups around the world, an abundance of challenges still remain to be solved for developing photonic devices, interconnects and large-scale integrated circuits, to enable energy-efficient, low-latency and high-speed optical-domain computing.

This symposium aims to discuss a wide variety of neuromorphic photonics and related technologies, ranging from novel photonic devices, systems, networks and applications. Existing technologies and prospects related to various aspects and different implementations of photonic neural networks (PNNs), from photonic synapses to artificial and spiking neurons and their applications, will be discussed by a diverse and international cohort of speakers from academia and industry.

Organizers

Pandelis Diamantopoulos, NTT Device Technology Labs, Japan, Networks
Chaoran Huang, Chinese University of Hong Kong, Hong Kong, China, IPR

Speakers

Angelia Totovic, Celestial AI, USA
S.J. Ben Yoo, University of California, Davis, USA
Takuma Tsurugaya, NTT, Japan
Xingyuan (Mike) Xu, Beijing University of Posts and Telecommunications, China
Harish Bhaskaran, University of Oxford, UK
Joshua Robertson, University of Strathclyde, UK
Thomas Ferreira de Lima, NEC Labs America, USA


2023 Special Events

IONS+ Busan

Sunday, 09 July 07:00 – 17:00
Paradise Hotel Busan

Hosted by the PNU Optica Student Chapter
Fee: KRW 69,000

IONS+ Busan 2023 is a full-day event for students attending the Optica Advanced Photonics Congress. IONS, which started in 2008, affords students the opportunity to build an environment where they can exchange research, hear from luminaries and professionals in the field, as well as showcase and enjoy the local culture of the host city. The event is open to all students.

Applications for travel grants can be found at apply.optica.org.

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Welcome Reception

Monday, 10 July 18:30 – 20:00

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

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Accelerate Your Professional Development with Optica: Opportunities for Students and Early Career Professionals

Tuesday, 11 July 13:15 – 14:15
Sydney Room

Host: Optica Nanophotonics Technical Group

Join us for a dynamic lunchtime panel discussion featuring panelists Joyce Poon, Howard Lee and Sejeong Kim as they share their experiences volunteering for Optica and discuss opportunities for students and early-career professionals.

Please RSVP for this event. >

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LGBTQ+ & Allies Meet & Greet

Tuesday, 11 July 18:00 – 18:45
Sydney Room

Join an informal get together to discuss being LGBTQ+ in STEM and how we can work together to create a more inclusive community. Klaus Jäger, Helmholtz-Zentrum Berlin, Chair of the Optical Devices & Materials for Solar Energy & Solid-State Lighting Topical Meeting, will be joined by Aitor Villafranca, Institute of Optics (CSIC) and board member of PRISMA, will be on hand to lead the discussion.

Please join us to share your stories, hear from others and support building a more inclusive community for all.

All are welcome!

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Networking Rounds

Wednesday, 12 July 19:30 – 20:30
Sicily Room

Let's build some networks!

Developing a strong professional network around core topics of interest is key to both career and scientific advancement. However, in the growing digital age and rapid advancement of research, it can be challenging to establish new connections while growing existing ones.

To facilitate this, the constituent meetings of the Optica Advanced Photonics Congress (IPR, NOMA, Networks, SPPCom, SOLED) have each selected some recent Hot Topics. As with the research, these topic descriptions are designed to be crosscutting, intersecting with more than just one meeting area.

In this informal networking session, we encourage attendees to join in on a Hot Topic area connected to their research, but outside their primary meeting area. This creates an opportunity for attendees to hear new perspectives on these growing areas, meet new researchers and share their thoughts. The leadership of each topical meeting will join each Hot Topic to facilitate discussions, so make sure to drop by and introduce yourself!

Topics:

  • Nonlinear Photonics and Applications
  • Quantum Photonic/Network Technologies
  • Bioinspired Optics
  • Soft Materials
  • AI/ML in Optics and Communications
  • High Capacity Transmission
  • Sustainable Photonics
  • The Role of Optics in a Decarbonized Energy System

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Closing Toast

Thursday, 13 July 16:00 – 17:00
Sicily Room

The congress concludes with a toast. It's a time to reflect on the week and discuss learnings with fellow attendees.

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Student Paper Competition

The papers submitted to the competition were reviewed during the standard Technical Program Committee (TPC) review process, which resulted in up to 17 finalists selected. After the papers are presented at the meeting, the Program Committee members will select winners based on content quality, value to the technical community of interest and the student's presentation skills.


Congratulations to the Winners

 

Integrated Photonics Research, Silicon and Nanophotonics (IPR)

Bo Yang, Institute of Physics, China (IM4A.3)
Monolithic Integration of III-V Quantum Dot Lasers on SOI 

Ming Gao, University of Münster, Germany  (IW2A.2)
Tunable Picosecond Si3N4 Waveguide-Based Optical Parametric Oscillators

Michael Nickerson, University of California, Santa Barbara, USA  (IW4A.1)
Gallium Arsenide Optical Phased Array Beam Steering Photonic Integrated Circuit

Jinhyeong Yoon, KAIST, Republic of Korea (IW4A.3)
Lens-Assisted Two-Dimensional Receiver Based on Grating Array for Wide Angle Detection
 

Novel Optical Materials and Applications (NOMA)

Simran LamboraIndian Institute of Science Bangalore, India  (NoM4C.5)
Second Harmonic Generation in Colloidal MoS2 Nanorods
 

Photonic Networks and Devices (Networks)​

Yoshiaki Ishikawa, Nagoya University, Japan (NeTu3B.3)
Adaptive Joint Pre-/Post-Equalization of Spectrum Narrowing Caused by Cascaded Photonic Nodes

Takuro Ochiai, Nagoya University, Japan (JW2E.1)
Low-cost Coherent Transceivers with Quantization Noise Mitigation Function Enabled by Neural Networks

Keiji Shimada, Kagawa University, Japan (NeW4B.2)
Demonstration of Full-Duplex and Real-time Transmission over 10 m Air and 1.2 Water Channel for Completely Invisible Optical Wireless Communication Systems
 

Solar Energy and Light - Emitting Devices (SOLED)

Hyeonwook Chae, KAIST, Republic of Korea (STu2D.3)
Optimization of Transparent OLEDs for Visual Stimulation in Bio-applications

Sangin Hahn, KAIST, Republic of Korea (STu2D.4)
Low Temperature Processed Flexible Organic Photodetectors with High Spectral Detectivity

Woochan Lee, KAIST, Republic of Korea (JW4D.3)
Deep-red to Near-infrared Organic Light-emitting Diodes based on Dinuclear Platinum(II) complex
 

Signal Processing in Photonic Communications (SPPCom)

Olaf Schulz, Kiel University, Germany (SpW3E.3)
Full Spectrum WDM Nonlinear Frequency Division Multiplexed Transmission System using Spectral Overlap

Mostafa Khalil, McGill University, Canada (SpW4E.2)
Performance of Quantum-Dash Mode-Locked Laser Diode (QD-MLLD) for Data Rates Beyond Tb/s in WDM Coherent Transmission Over 80 km-SMF


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