Photonics Global Conference on August 26-29, 2024 in Wrocław, Poland

Track 1. Luminescent and Advanced Materials

Chairs: Alicja Bachmatiuk, Lukasiewicz – PORT, Poland

           Joanna Cybinska, Lukasiewicz – PORT, Poland

           Jarosław Myśliwiec, Wroclaw University of Science and Technology, Poland

           Xialong Cheng, Southern University of Science and Technology, China

• Physics, modelling, processing and characterization of luminescent materials

• Phosphors, quantum dots and low dimensional materials for lighting and displays

• Advances in scintillator development and upconversion materials

• Luminescent materials for photovoltaic applications

• Infrared materials

• Ternary halide and chalcogenide materials (including perovskites)

• Low-dimensional materials (two-, one-. And, zero-dimensional materials)

• Other advanced materials

Track 2. III-V and Integrated Optical Devices

Chairs: Detlef Hommel, Lukasiewicz – PORT, Poland

            Lukasz Janicki, Lukasiewicz – PORT, Poland

            Robert Kudrawiec, Lukasiewicz – PORT, Poland

            Didit Yudistira, IMEC, Belgium

            Jianguo Liu, Institute of Semiconductors, CAS, China

• III-V photonics

• Design, fabrication, and characterization of novel integrated devices

• Device packaging, performance and reliability test

• Silicon and hybrid III-V/silicon photonics

• Large-scale photonic integrated systems

• High speed light sources, modulators, and detectors

• Waveguide and other passive optoelectronic devices

• Semiconductor materials growth and device development

• Lasers for Datacom/Telecom wavelength

• VCSEL and LIDARs

• MicroLEDs and applications

Track 3. Polymer and Flexible Photonics

Chairs: Anna Szerling, Lukasiewicz – IMIF, Poland

           Małgorzata Guzik, University of Wroclaw, Poland

           Somnath Mahato, Lukasiewicz – PORT, Poland

           Aung Ko Ko Kyaw, Southern University of Science and Technology, China

• Design approaches to increase bending flexibility of photonic structures

• Stretchable photonics: lessons learnt from stretchable electronics

• Polymer synthesis

• Polymer for photovoltaics and light-emitting devices

• Materials design considerations for flexible photonics

• Transfer printing of semiconductor nanomembrane structures and devices

• Monolithic integration on plastic substrates

• Optical links for board-level interconnects

• Broadband tunable photonic devices

• Flexible detector/LED arrays

Track 4. Optical Subsystems, Systems and Networks

Chairs: Freddy Hongyan Fu, Tsinghua University, China

           Jianqiang Li, LightsAI Solution, China

           Qirui Huang, Huawei International Pte Ltd

           Xijia Zheng, Google LLC, Sunnyvale, CA, USA

• Modelling, Analysis, Design, Implementation of Subsystems and systems

• Subsystems for Modulation, Detection, Estimation

• Subsystems for Wavelength, Space and Time Division Multiplexing (WDM, SDM, TDM)

• Optical Wireless Communication

• Sensing, Positioning, Navigation

• Optical transmission systems and subsystems

• Core/Metro Network and Subsystem

• Optical Access Network and Subsystem

• Data Center Network and Subsystem

• Optical Networking for Computing Applications

• Converged Network

Track 5. Microwave Photonics

Chairs: Hao Hu, Technical University of Denmark, Denmark

            Xianbin Yu, Zhejiang University, China

            Zixiong Wang, Tianjin University, China

            Lei Deng, Huazhong University of Science and Technology, China

• Photonics generation of microwave signals

• Photonics processing of microwave signals

• Photonic true time delay beamforming for phased array antennas

• THz communications

• Flexible waveform generation and propagation of millimeter-wavelength radio signals for 5G and beyond-5G applications

• Tunable photonic filters with features suitable to microwave applications

• Photonics-based measure of backscattered microwave signals

• In-field implementation of photonics-based radar networks

• Programmable microwave photonics

• Quantum communication application

Track 6. Biophotonics and Optical Biomedicine

Chairs: Shuwen Zheng, University of Technology of Troyes, France

            Christophe Dujardin, University of Claude Bernard Lyon, France

            Michal Makowski, Lukasiewicz – PORT, Poland

            Gina Chen, Southern University of Science and Technology, China

• Biomedical optical spectroscopy and imaging: systems and applications

• Optical coherence tomography: light sources, systems, and applications

• Nonlinear microscopy, coherent Raman scattering microscopy, and high-resolution microscopy techniques

• Photoacoustic tomography or microscopy, acousto-optical imaging

• Optical trapping and manipulation, and their applications in biophotonics

• Lasers, supercontinuum lasers, fiber lasers and their biomedical applications

• Clinical and Translational Biophotonics

• Microscopy, Histopathology and Analytics

• Cardiac Optogenetics

• In-Vivo Label-Free Optical Spectroscopy

Track 7. Fiber-Based Technologies and Applications

Chairs: Yiyang Luo, Chongqing University, China

            Wenjun Ni, South-Central Minzu University, China

            Dominik Kowal, Lukasiewicz– PORT, Poland

            Abdul Kuddus Sheikh, Lukasiewicz – PORT, Poland

• Micro/nano-structured fibers

• Soft glass fibers

• Crystal fibers

• Fiber designs and theory

• New processes for fiber manufacturing

• Active fibers for high power lasing

• Fibers for ultrafast lasers/supercontinuum generation

• Fibers for high energy delivery

• Fibers for sensing applications

• Fibers for gyroscopes

• Fibers for diagnostics and therapy

• Fibers for wearable devices

• Fibers for optical communication

• Fibers for optical signal processing

Track 8. Plasmonics and Metamaterials

Chairs: Muhammad Danang Birowosuto, Lukasiewicz – PORT, Poland

            Husin Alatas, IPB University, Indonesia

            Mateusz Slowikowski, Warsaw University of Technology, Poland

            Landobasa Tobing, A*Star, Singapore

• Plasmonics and nano-optics

• Photothermal and photoelectric nanophotonics

• Optical antennas and plasmonics-based devices

• Plasmon-enhanced photovoltaics, photocatalysis, and solar fuels

• Super-resolution imaging

• Linear and nonlinear metamaterials

• Chiral and hyperbolic metamaterials

• Acoustic and thermal metamaterials

• Metamaterial-based devices

• Metasurfaces and flat optics

• AI for metamaterial design

Track 9. Optical Sensors and Systems

Chairs: Krzysztof Rola, Lukasiewicz – PORT, Poland

            York Haemisch, Varex Imaging, Germany

            Dennis Schaart, Delft University of Technology, The Netherlands

            Hendradi Hardhienata, IPB University, Indonesia

• Distributed optical fiber sensors based on Rayleigh, Brillouin and Raman scattering, and sensor networking

• Discrete optical fiber sensors, and sensor array

• Fiber Bragg grating sensors, long period grating sensors, tilted fiber Bragg grating sensors

• Optical fiber interferometric sensors (Mach-Zehnder Interferometer, Michelson interferometer, Fabry-Perot interferometer, Sagnac interferometer, etc.)

• Optical fiber laser sensors

• Specialty fiber optic sensors, Photonic crystal fiber sensors

• Surface pasmon resonance fiber sensors

• Micro/nanofiber sensors

• Microwave photonics sensors

• Silicon photonics sensors

• Optical sensors for chemical, environmental, biological and medical applications

• Optical sensors for structural health monitoring, security, defense and industrial applications

• New elements (fibers, devices and subsystems), effects (e.g., plasmonics), technologies (including nanophotonics), materials (e.g., meta- and structured-materials) and signal processing (e.g., machine learning) for photonic sensing

Name: PCO