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PGC 2024 : Photonics Global Conference (PGC 2024) | |||||||||||
Link: https://www.optoin.org/PGC/ | |||||||||||
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Call For Papers | |||||||||||
★Full Name: Photonics Global Conference
★Abbreviation: PGC 2024 Date: August 26 to 29, 2024 Website: https://www.optoin.org/PGC/ Venue: Wroclaw, Poland Photonics Global Conference (PGC 2024) will be held in Wroclaw, Poland from August 26 to 29, 2024. The aim of this conference is to foster interactions among broad disciplines in the photonics and optical communication family. The conference will provide a platform for international academics, researchers, practitioners and students working in the photonics areas to discuss new developments, concepts and practices, and to identify synergies in research directions that will lead to broader and deeper applications of photonics. We look forward to your participation so as to make this conference an exciting and fruitful event. ★Organizers Łukasiewicz – PORT Polish Center for Technology Development Southern University of Science and Technology ★Technical Sponsors IEEE Photonics Society ★Conference Committees -Honorary Chairs- Detlef Hommel, Lukasiewicz - PORT, Poland Marek Samoc, Wroclaw University of Science and Technology, Poland -General Chairs- Bruno Viana, Chimie-ParisTech Research Institute, France Artur Podhorodecki, QNA Technology, Israel Ryszard Buczyński, Lukasiewicz – IMIF , Poland Xiaodan Pang, KTH Royal Institute of Technology, Stockholm, Sweden -Local Chair- Alicja Bachmatiuk, Lukasiewicz - PORT, Poland -Program Chairs- Anna Szerling, Lukasiewicz – IMIF , Poland Jaroslaw Mysliwiec, Wroclaw University of Science and Technology, Poland Shuwen Zheng, University of Technology of Troyes, France Martin Strassburg, OSRAM Opto Semiconductors GmbH., Germany Christophe Dujardin, University of Claude Bernard Lyon, France Yating Wan, King Abdullah University of Science & Technology, Saudi Arabia -Local Organizing Committee- Robert Kudrawiec, Lukasiewicz - PORT, Poland Joanna Cybinska, Lukasiewicz - PORT, Poland Muhammad Danang Birowosuto, Lukasiewicz - PORT, Poland Małgorzata Guzik, University of Wroclaw, Poland Katarzynę Matczyszyn, Wroclaw Univercity Science and Technology, Poland -Publication Chairs- Krzysztof Czyż, Lukasiewicz - PORT, Poland Dominik Kowal, Lukasiewicz - PORT, Poland Krzysztof Rola, Lukasiewicz - PORT, Poland Michal Makowski,Lukasiewicz - PORT, Poland -Sponsorship Chair- Magdalena Łukaszewska, Lukasiewicz - PORT, Poland -Special Session Chair- Md. Abdul Kuddus, Lukasiewicz - PORT, Poland -Workshop Chair- Somnath Mahato, Lukasiewicz - PORT, Poland -Publicity Chair- Daniela Szymczak, Lukasiewicz - PORT, Poland -Finance Chair- Xiaojun Yu, Northwestern Polytechnical University, China ★Call for Papers After a peer reviewing process, all accepted papers after proper registration and presentation, will be published in the conference Proceedings by IEEE, and reviewed by the IEEE Conference Publication Program for IEEE Xplore. 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 ★Submission Submission Requirement If you consider presenting your work at the conference and publish your paper after the conference, please submit your with 2 pages at least, maximum 5 pages, more pages will be charged. Paper Template Please format your paper according to the Manuscript Specifications. Important Notes: 1. English is the official language of the conference; the paper should be written and presented only in English. 2.Only work that has not been previously published at the time of the conference will be considered. 3. Prior to make the submission, please prepare your paper or abstract according to the template. 4.The submission will be confirmed and assigned a Paper ID by the conference secretary from pgc@youngac.cn within 3 working days after submission. ★Submission Link: https://easychair.org/conferences/?conf=pgc2024 ★Contact Us Conference Secretary: Ms. Carol Wang Email: pgc@youngac.cn Phone: +86 135 4138 2102 |
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