World Photonics Conference 2026 & AOPC 2026

Conference Venue：

China National Convention Center (CNCC) (Phase II)

Address: No.20 Datunjia Road, Chaoyang District, Beijing China

会议地点：

国家会议中心二期

地址：北京市朝阳区大屯甲路20号

China National Convention Center (CNCC)

CNCC is ideally located in the heart of the Olympic Green, adjacent to the National Stadium (Bird Nest), the National Aquatics Center (Water Cube) and the National Indoor Stadium. The center is China's most versatile international conference venue ideal for congresses, meetings, exhibitions, banquets, product launches, corporate annual dinners, etc. CNCC is also connected with hotels and shopping mall. Surrounded by wide avenues in the Northern Beijing, it is easily accessible by public transportation. You can show the map to the taxi driver to take you to the hotel.

Registration Fee：

Type	Before and on 2026.6.20	After 2026.6.20	CSOE Member
Regular Registration	CNY 3400	CNY 3600	CNY 2800
Student Registration	CNY 1800	CNY 2000	CNY 1800

Registration Includes:

* Admission to all technical sessions, plenaries, panels and exhibition.

* Lunches and coffee breaks during the conference.

* Conference program book, technical digest and conference bag.

* Publication fee and accommodation fee is not included.

国内代表支付方式：

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2. 银行汇款：

学会账号：0200296409200177730

开户银行：工行北京科技园支行

户名：中国光学工程学会

备注：WPC+姓名

汇款完成后请在注册时上传汇款凭证，组委会审核通过后请在线申请发票。

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现场支持刷卡、支付宝、微信或现金支付。

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2. 发票：会议发票最晚于会后两周内处理完毕；

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会议报销通知：会议通知-第七届世界光子大会.pdf

Submission Areas:
T1. Laser Technology and Applications

T2. Infrared Technology and Applications

T3. THz Technology and Applications

T4. Optical Spectroscopy and Applications

T5. Ultrafast Optics

T6. Micro-Nano Optics

T7. Fiber Optics

T8. Optoelectronic Devices and Integration

T9. Quantum Optics

T10. AI Photonics

T11. Optical Design and Manufacturing

T12. Optical Sensing and Detection

T13. Optoelectronic Measurement and Metrology

T14. Optical Communication and Optical Network

T15. Optical Imaging and Display

T16. Atmospheric, Marine and Space Optics

T17. Astronomical Technologies and Instrumentation

T18. Biomedical Photonics

T19. Energy Photonics

Please submit a 300-500 words abstract in English for technical review purposes that is suitable for publication to the conference website. If accepted, the contact author will receive notification of acceptance by email.
The SPIE manuscript submission link will be sent to the author afterwards on June.

Abstract submission link: https://b2b.csoe.org.cn/submission/wpc2026.html

Abstract submission deadline: 20 June 2026 (last round)

Abstract template: Abstract-Template-for-Oral-and-Poster.docx

Prof. James Fujimoto is Elihu Thomson Professor of Electrical Engineering at MIT, visiting professor of ophthalmology at Tufts University School of Medicine, and adjunct professor at the Medical University of Vienna. His group and collaborators were responsible for the invention and development of OCT, performing some of the first studies in ophthalmology. Working with Carmen Puliafito and Eric Swanson, he cofounded the startup company Advanced Ophthalmic Devices, which developed ophthalmic OCT and was acquired by Carl Zeiss. He also cofounded, with Eric Swanson and Mark Brezinski, LightLab Imaging, which developed intravascular OCT and was acquired by Goodman, Ltd. and St. Jude Medical. Dr. Fujimoto has published over 500 journal articles. He received the Zeiss Research Award in 2011, Optical Society of America Ives Medal in 2015, Beckman-Argyros Award in Vision Research in 2017 and the Honda Prize in 2024. He was co-recipient of the Champalimaud Vision Prize in 2012, National Academy of Engineering Fritz J. and Dolores H. Russ Award in 2017, European Inventor Award in 2017, Lasker-DeBakey Clinical Medical Research Award in 2023 and National Medal of Technology and Innovation in 2023. Dr. Fujimoto has honorary doctorates from the Nicolaus Copernicus University in Poland and Friedrich Alexander University of Erlangen-Nuremberg and is a member of the National Academy of Engineering, National Academy of Sciences, and American Academy of Arts and Sciences.

Report Title: Optical Coherence Tomography: History, evolution and future prospects

Prof. David Brady currently serves as the J.W. and H.M. Goodman Endowed Chair in Optical Sciences at the University of Arizona. He has held distinguished professorships at Duke University, including the Michael J. Fitzpatrick Professor of Photonics and Addy Family Professor, and was a Professor at the University of Illinois. He also served as Director of the Fitzpatrick Institute for Photonics at Duke and held faculty positions at Duke Kunshan University. Brady is a serial entrepreneur, co‑founding and chairing Aqueti, chairing Applied Quantum Technologies, and leading Centice Corporation and Blue Angel Optics as Founder and Chief Scientist. He is a Fellow of Optica, IEEE, and SPIE, and has received major awards including the 2023 Optica Emmett N. Leith Medal and the 2013 SPIE Dennis Gabor Award. Prof. Brady is a pioneer in computational imaging. He led the team that developed the world's first gigapixel camera in 2012, and has since advanced miniaturization, performance, and cost‑effectiveness of such systems. His current research explores aperture synthesis, interferometric super‑resolution, and neural network‑enabled optical sensing. He also developed compressive tomographic imaging for hyperspectral, high‑speed, X‑ray, and millimeter‑wave applications.
Report Title: Multiscale design for array cameras

Prof. Lars Samuelson received his PhD in Physics in Lund, 1977, followed by a Post-doc at IBM Research Centre, California. In 1986 Professor in Physics, Gothenburg and in 1988 Professor at Physics Department in Lund. In 1988 he initiated a Nanoscience Centre, NanoLund, today with more than 400 researchers. Since 2021, he is Chair Professor at Southern University of Science and Technology (SUSTech), in Shenzhen, China, and Director of the Institute of Nanoscience and Applications (INA) at SUSTech. Beside his engagement in academic research, he as the primary founder, and Chief Scientist, of four materials-based companies: QuNano AB, Glo AB, Sol Voltaics AB and Hexagem AB, the last one in a very active state of development right now. He is a member of the Royal Swedish Academy of Sciences, of the Royal Swedish Academy of Engineering Sciences and Foreign Member of the Chinese Academy of Sciences, CAS. He is also Fellow of the Institute of Physics (UK), Fellow of the American Physical Society (Materials Physics) and International Fellow of the Japanese Society Applied Physics(JSAP). Lars Samuelson has been the founder and chief scientist of four start-ups working on the commercialization of nanowire and nanomaterial technologies, in QuNano AB, GLO AB, Sol Voltaics AB and Hexagem AB. Samuelson is the author of well over 700 articles with h-index 92 at Web-of-Science (h-index 112 by Google Scholar) and listed among the 1% most highly cited researchers by Web-of-Science.
Report Title: Innovative materials science as enabler of sub-µm sized Blue, Green and Red microLEDs

Prof. Andreas Mandelis' research interests are focused on thermophysics, non-radiative and radiative physics of electronic, optical and biomedical materials, photoacoustic, photothermal and diffusion-wave phenomena in manufactured, electronic, biological and photonic media. He is the Canada Research Chair (Tier 1) in Diffusion-Wave Sciences and Technologies and a Fellow in the Academy of Sciences of The Royal Society of Canada. He has been selected for the Alexander von Humboldt Professor Award twice (in 2003 and 2012). He is the 2007 (inaugural) recipient of the Ontario Premier’s Discovery Award in Science and Engineering. He received the ASME 2009 Yeram Touloukian Award (and Medal) in Thermophysics, the Senior Prize of the International Photoacoustic and Photothermal Association, and the Canadian Association of Physicists (CAP) Medal for Outstanding Achievement in Industrial and Applied Physics. In 2010 he was awarded a Killam Research Fellowship from the Canada Council for the Arts. He is the recipient of the American Physical Society's (APS) 2012 Joseph F. Keithley Award for Advances in Measurement Science and of the CAP-INO Medal for Outstanding Achievement in Applied Photonics. He is a Fellow of the Canadian Academy of Engineering, the APS, the SPIE, the AAAS and the ASME. In 2024, Professor Mandelis was selected as a Highly Ranked Scholars™ by ScholarsGPS, which celebrates exceptional performance in various Fields, Disciplines, and Specialties.

Report Title: Three-dimensional thermophotonic super-resolution and super contrast imaging via deep learning-assisted spatiotemporal diffusion-reversal methods

Taking a global perspective, the 17th Photonics Expo Beijing will establish a large-scale, high-caliber industry platform dedicated to showcasing the full ecosystem of the optics and photonics supply chain. Through technology-driven services, we accelerate the adoption of cutting-edge innovations and new products across the sector.

The expo features the following specialized thematic zones:

* Precision Instrument
* Intelligent Manufacturing

* Quantum Technology
* AI

* 6G

* Smart Vehicles

* Robotics

* Low-altitude Economy

* Aerospace Information

* Digital Health
* AR/VR/XR
* Advanced Chips

* New Quality Productive Forces Innovation

For more information, please check https://www.cipeasia.com/

Conference Tracks:

T1. Laser Technology and Applications

S1A. Novel Laser Materials, Specialty Fiber-Optic Devices and Technologies

S1B. Integrated and Intelligent Laser Systems

S1C. Ultra-Precision Laser Micromachining of Advanced Materials

S1D. Next-Generation LiDAR Architectures and Smart Sensing Technologies

S1E. High-Energy Solid-State Laser Systems and Facilities

T2. Infrared Technology and Applications

S2A. Infrared Detection Materials, Device Physics and Optoelectronic Properties
S2B. Advanced Infrared Active & Passive Imaging Chips and Integrated Architectures
S2C. High-End Infrared Systems and Aerospace Remote Sensing Applications
S2D. Low-Cost Infrared Systems and Commercialized Civil Applications
S2E. Intelligent Infrared Sensing and Frontiers in Advanced Optics

T3. THz Technology and Applications

S3A. Physical Mechanisms and Performance Breakthroughs in Novel Terahertz Sources and Detectors

S3B. Terahertz Applications in 6G Communications and Next-Generation Wireless Networks

S3C. System Integration of Terahertz Technologies for Non-Destructive Testing and Security Screening

S3D. Terahertz Spectroscopy in Life Sciences and Pharmaceutical Analysis

T4. Optical Spectroscopy and Applications

S4A. Recent Advances in Spectroscopic Techniques and Instruments
S4B. Portable and Wearable Spectroscopic Sensors
S4C. Applications of Spectral Analysis in Agriculture, Food, Pharmacy, Environment and Related Fields
S4D. Applications of Spectroscopic Techniques in Extreme Conditions such as Space Remote Sensing and Fusion Devices

T5. Ultrafast Optics

S5A. Light Field Manipulation: From Electron Dynamics to Novel Quantum Material Design
S5B. Tabletop Particle and Radiation Sources Driven by Ultrafast Lasers

S5C. Probing Ultrafast Dynamics in Quantum Materials and Chemical Reactions

S5D. High-Repetition-Rate Ultrafast Systems in Industrial and Biological Imaging

S5E. Exploring the Precision Limits and Novel Methods in Ultrafast Optical Measurements

T6. Micro-Nano Optics

S6A. Novel Architectures and Strategies for Optical Computing Based on Micro-Nano Optics
S6B. Novel Imaging Systems Based on Planar Optics
S6C. Fabrication and Applications of Tunable Micro-Nano Optical Devices
S6D. Industrial Applications of Micro-Nano Optics

T7. Fiber Optics

S7A. Applications of Multi-Core and Few-Mode Fibers in Space-Division Multiplexed Communications

S7B. Distributed Fiber Sensing and Its Applications in Geohazard Early Warning and Infrastructure Monitoring

S7C. Fiber-Optic Devices and Sensing in Extreme Environments (Space, Deep Sea, Nuclear Facilities)

S7D. Convergence of Fiber-Optic Technologies with Quantum Networks and Biomedicine

T8. Optoelectronic Devices and Integration

S8A. Materials, Process and Design Platforms for Photonic Integration

S8B. New Methods for Optoelectronic Heterogeneous Integration

S8C. Testing and Packaging of Optoelectronic Integration

S8D. Construction of Optoelectronic Integration Ecological Chain in the Era of Co-Packaged Optics (CPO)

S8E. High-Efficiency Photonic Integrated Circuits for Data Centers and AI Accelerators

T9. Quantum Optics

S9A. Practical and long-distance quantum key distribution

S9B. Quantum memory and quantum repeaters

S9C. Quantum experiments in space, quantum photonics

S9D. Quantum computation with photons and atoms

S9E. Quantum metrology, quantum state engineering

S9F. Novel Light Source Technologies for Quantum Precision Measurement

S9G. High-Precision Measuring Instruments Based on Optical Frequency Quantum Technology

S9H. Integrated Quantum Precision Measurement Sensors and Chip-Scale Instruments

S9I. Quantum Time-Frequency Technology and High-End Instruments

S9J. Calibration, Evaluation and Standardization of Quantum Metrology

T10. AI Photonics

S10A. AI for Optical Imaging and Display Technology

S10B. AI for Optical Communication and Storage Technology

S10C. AI for Optoelectronic Materials and Photonic Devices

S10D. Optical Neural Networks and Optical Computing

S10E. Hardware and Software for Optical Computing

S10F. Applications of Intelligent Optics and Photonics

T11. Optical Design and Manufacturing

S11A. Advanced Optical Manufacturing Technologies with Atomic-Level Precision

S11B. Fabrication and Applications of Freeform Surfaces and Functional Structures

S11C. Applications of Artificial Intelligence in Optical Manufacturing

S11D. Design and Manufacturing of Space Optical Systems for Low-Altitude Economy

S11E. Applications of Advanced Optical Design in Metaverse and Automotive Optics

S11F. Optical Manufacturing in Integrated Circuits and Semiconductors

T12. Optical Sensing and Detection

S12A. Photodetection Technologies Based on Novel Low-Dimensional Materials

S12B. Development and Imaging Applications of Hyperspectral, High-Sensitivity Detectors

S12C. Advances and Applications in Multidimensional Detection

S12D. Testing and Calibration Technologies for Photodetectors

S12E. Miniaturization, Low Power Consumption, and Self-Powered Designs for Sensing Systems

T13. Optoelectronic Measurement and Metrology

S13A. Novel Optical Metrology Methods for Precision Instruments and Advanced Manufacturing

S13B. 3D Vision Guidance and In-Line Precision Measurement for Smart Manufacturing

S13C. New Photoelectric Detection Methods for Extreme or Confined Environments (High Temperature, Intense Radiation, Enclosed Spaces)

S13D. Multimodal Optical Perception Fusion: From Industrial Quality Inspection to Embodied Intelligence Sensing

T14. Optical Communication and Optical Network

S14A. Hollow-Core Fiber Technology and Fabrication

S14B. Photonic Components and Networks for AI Data Centers

S14C. Marine Optical Communication and Network Technologies and Applications

S14D. Free-Space Optical Communication and Network Technologies and Applications

S14E. In-Vehicle Optical Communication and Network Technologies and Applications

S14F. Physical Layer Security Technologies for Optical Communications

S14G. Next-Generation OTN and OAN

T15. Optical Imaging and Display

S15A. Computational Optical Imaging

S15B. Advanced Biomedical Imaging

S15C. Multidimensional, Multispectral, Multiscale Imaging

S15D. 3D Imaging Measurement and Display

S15E. Holographic Light Field Imaging and Display

S15F. Novel Display Mechanisms and Paradigms

S15G. Multidimensional Light Field Control Enabling Imaging and Display

S15H. AI Empowered Imaging and Display

S15I. Micro/Nano-Optics Empowering Imaging and Display

S15J. Frontier Applications of Optical Imaging and Display

T16. Atmospheric, Marine and Space Optics

S16A. Lidar, Hyperspectral, Polarization Remote Sensing

S16B. Marine and Underwater Optical Communication and Detection

S16C. Space and Atmospheric Optical Technologies and Systems

S16D. Applications in Ecology, Environment, Climate, Meteorology, Carbon Peaking and Neutrality, etc.

T17. Astronomical Technologies and Instrumentation

S17A. Optical and Near IR Telescopes and Instrumentation

S17B. UV, X-ray and Gamma Ray Telescopes and Instrumentation

S17C. Radio, Millimeter, Submillimeter and Far-infrared Techniques, and Instrumentation

S17D. AO Systems and Techniques

S17E. Multi-messenger Instrumentation and Techniques

S17F. Observatory Operations: Software and Data Pipeline System

T18. Biomedical Photonics

S18A. Frontiers in Biomedical Optical Imaging

S18B. Multimodal Endomicroscopy (OCT, Confocal, Raman) for Early Cancer Detection

S18C. Applications of Optogenetics and Photoacoustic Imaging in Neuroscience and Therapy

S18D. Low-Cost, Accessible Photonic Medical Devices

T19. Energy Photonics
S19A. Efficiency Limits and New Materials Exploration in Photovoltaics

S19B. Advanced Light Management in Perovskite and Tandem Solar Cells

S19C. Optical Design Optimization for Solar Concentration and Photothermal Conversion

S19D. Photocatalysis and Artificial Photosynthesis: From Fundamentals to Applications

General Chairs:

LUO Xiangang, Institute of Optics and Electronics, CAS
SUN Hongbo, Tsinghua University
Kent B. Rochford, SPIE

General Co-Chairs:

YAO Jianping, University of Ottawa
WANG Zhonglin, Beijing Institute of Nanoenergy and Nanosystems, CAS

Executive Chairs:
CAO Liangcai, Tsinghua University
HUANG Shanguo, Beijing University of Posts and Telecommunications
WANG Ruikang, University of Washington

ZHAO Huijie, Beihang University

Organizing Committee (Alphabetical Order):

CHEN Liangyi, Peking University
DONG Yongkang, Harbin Institute of Technology

FU Yuxi, Xi’an Institute of Optics and Precision Mechanics, CAS
GE Jian, Shanghai Astronomical Observatory, CAS

HAN Hongwei, Huazhong University of Science and Technology
HU Yihua, National University of Defense Technology
LI Pingxue, Beijing University of Technology

LI Xue, Shanghai Institute of Technical Physics, CAS

KONG Lingbao, Fudan University
RAO Changhui, Institute of Optics and Electronics, CAS
TAN Xiaodi, Fujian Normal University
TANG Aiwei, Beijing Jiaotong University

TIAN Zhen, Tianjin University
WANG Dapeng, National Key Laboratory of Electromagnetic Space Security
WANG Jun, University of Electronic Science and Technology of China
WANG Xingjun, Peking University

WEI Kai, Zhejiang University

XU Kemi, Beijing Institute of Technology
ZHU Xia, Nankai University
ZUO Chao, Nanjing University of Science and Technology

Sub-Conference Committee:

T1. Laser Technology and Applications

Session Chairs:
LI Pingxue, Beijing University of Technology

LIU Qiang, Tsinghua University
SONG Ningfang, Beihang University
LIU Weiwei, Nankai University
LIU Zhaojun, Shandong University

Committee Members:
CHEN Weidong, Fujian Institute of Research on the Structure of Matter, CAS
CHEN Zilun, National University of Defense Technology
FU Shiyao, Beijing Institute of Technology
MA Yunfeng, Aerospace Information Research Institute, CAS
LIU Bowen, Tianjin University
QI Bo, Northwestern Polytechnical University
XU Jiangming, National University of Defense Technology
XU Xiaobin, Beihang University
YAO Chuanfei, Beijing University of Technology
ZHANG Jinwei, Huazhong University of Science and Technology

T2. Infrared Technology and Applications

Session Chairs:
LI Xue, Shanghai Institute of Technical Physics, CAS
ZHANG Hai, Harbin Institute of Technology
SUI Xiubao, Nanjing University of Science and Technology
TANG Xin, Minzu University of China

Committee Members:
Arsenii O. Chulkov, Tomsk Polytechnic University
GAO Bin, University of Electronic Science and Technology of China
HE Yunze, Hunan University
HUANG Zhangcheng, Fudan University

JIAO Binbin, Xi’an Jiaotong University

LI Yongfu, Shandong University

LI Ziyuan, Beijing Institute of Technology

LIU Liyuan, Institute of Semiconductors, CAS

LIU Ming, CETC 11

LU Wengao, Peking University

Bardia Yousefi Rodd, State University of New York
SONG Haisheng, Huazhong University of Science and Technology

SONG Weitao, Beijing Institute of Technology
WANG Fei, Harbin Institute of Technology

T3. THz Technology and Applications

Session Chairs:
TIAN Zhen, Tianjin University
CHANG Shengjiang, Nankai Univeristy
WU Shuai, University of Science and Technology of China
Committee Members:

CHENG Jierong, Nankai University
HU Weidong, Beijing Institute of Technology
LI Hua, Shanghai Institute of Microsystem and Information Technology, CAS
PENG Yan, University of Shanghai for Science and Technology
TU Hao, Hefei University of Technology

WANG Huabin, Chongqing Institute of Green and Intelligent Technology, CAS
XU Quan, Tianjin University
ZHANG Yong, University of Electronic Science and Technology of China
ZHAO Guozhong, Capital Normal University

T4. Optical Spectroscopy and Applications

Session Chairs:
YANG Zongyin, Zhejiang University
FENG Yutao, Xi’an Institute of Optics and Precision Mechanics, CAS
CHU Xiaoli, Sinopec Research Instutute of Petroleum Processing
WANG Shaowei, East China Normal University

Committee Members:
CHEN Qin, Jinan University

LI Wei, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

LI Wenlong, Tianjin University of Traditional Chinese Medicine

LI Xiangxian, Hefei Institutes of Physical Science, CAS

MU Tingkui, Xi'an Jiaotong University

SUN Haiding, University of Science and Technology of China

TANG Xin, Minzu University of China

WU Jiachen, Zhejiang University

YAO Shunchun, South China University of Technology

ZENG Qiang, Institute of Modern Physics, Chinese Academy of Sciences

ZHAO Ruocan, University of Science and Technology of China

T5. Ultrafast Optics

Session Chairs:
FU Yuxi, Xi’an Institute of Optics and Precision Mechanics, CAS
WU Chengyin, Peking University
WANG Wentao, Shanghai Institute of Optics and Fine Mechanics, CAS
ZHANG Shi’an, East China Normal University
ZHAN Qiwen, Westlake University

Program Committee:
CAO Huabao, Xi’an Institute of Optics and Precision Mechanics, CAS

CAO Qian, University of Shanghai for Science and Technology

HUANG Zhiyuan, Shanghai Institute of Optics and Fine Mechanics, CAS

LI Min, Huazhong University of Science and Technology

LI Chaoyang, Shanghai Institute of Optics and Fine Mechanics, CAS

LIAO Guoqian, Institute of Physics, CAS

QI Dalong, East China Normal University

WANG Xiaowei, National University of Defense Technology

YAN Wenchao, Shanghai Jiao Tong University

YAO Jinping, Shanghai Institute of Optics and Fine Mechanics, CAS

YE Difa, Institute of Applied Physics and Computational Mathematics

ZHANG Dongfang, Shanghai Jiao Tong University

T6. Micro-Nano Optics

Session Chairs:
LIN Linhan, Tsinghua University

LI Tao, Nanjing University
LI Jiafang, Beijing Institute of Technology
WU Dong, University of Science and Technology of China

Program Committee:
CHEN Yang, University of Science and Technology of China

HU Wei, Nanjing University

HU Yueqiang, Hunan University

REN Mengxin, Nankai University

SUN Jingbo, Tsinghua University

TIAN Zhennan, Jilin University

WANG Yang, Beijing Institute of Technology

WANG Fan, Beihang University

WANG Pan, Zhejiang University

ZHANG Cheng, Huazhong University of Science and Technology

T7. Fiber Optics

Session Chairs:
DONG Yongkang, Harbin Institute of Technology

DONG Yi, Beijing Institute of Technology

WANG Yiping, Shenzhen University
JIN Long, South China Normal University

MA Yunbin, Research Institute of National Oil and Gas Pipeline Group
Program Committee:
BA Dexin, Harbin Institute of Technology
BO Tianwai, Beijing Institute of Technology
DING Wei, Jinan University
FAN Xinyu, Shanghai Jiao Tong University
GONG Yuan, University of Electronic Science and Technology of China
HE Jun, Shenzhen University

JIANG Junfeng, Tianjin University

LI Baisong, PipeChina LNG Company Limited
LI Jianping, Guangdong University of Technology
WANG Haiming, PipeChina Research Institute
WEI Weilin, Beijing Institute of Technology
XU Yi, Guangdong University of Technology
ZHANG Hong, PipeChina Energy Storage Company Limited
ZHANG Mingjiang, Taiyuan University of Technology
ZHENG Kaiyuan, Hong Kong University of Science and Technology
ZHOU Guiyao, South China Normal University

T8. Optoelectronic Devices and Integration
Session Chairs:
WANG Xingjun, Peking University
ZHANG Wenfu, Xi’an Institute of Optics and Precision Mechanics, CAS
WANG Lai, Tsinghua University
Program Committee:
FENG Junbo, United Microelectronics Center
LI Tiantian, Xi'an University of Posts and Telecommunications
LIU Yang, Huazhong University of Science and Technology
LIU Yang, Ghent University / IMEC
QIN Jun, Beijing Information Science and Technology University
SHU Haowen, Peking University
TAO Yuansheng, City University of Hong Kong
WAN Yating, King Abdullah University of Science and Technology
XIANG Chao, The University of Hong Kong
XIE Weiqiang, Shanghai Jiao Tong University
YANG Fenghe, Zhangjiang Lab
YANG Junbo, National University of Defense Technology

T9. Quantum Optics
Session Chairs:
LU Chaoyang, University of Science and Technology of China
CHEN Jingbiao, Peking University
XU Kemi, Beijing Institute of Technology
Program Committee:
CHANG Kai, Beijing Academy of Quantum Information Sciences
DING Shiqian, Tsinghua University
HE Yu, Shenzhen Institute for Quantum Science and Engineering
JIANG Tian, National University of Defense Technology
WANG Jianwei, Peking University
WANG Junfeng, Sichuan University
WANG Lei, Jilin University
WU Zhonghuai, Beijing Institute of Technology
WU E, East China Normal University
ZHANG Linjie, Shanxi University
ZHAO Qi, The University of Hong Kong

T10. AI Photonics

Session Chairs:
CAO Liangcai, Tsinghua University
CHEN Hongwei, Tsinghua University
Alex Yasha Yi, MIT
Program Committee:

GU Tingyi, University of Delaware
HUANG Chaoran, The Chinese University of Hong Kong
LIN Hongtao, Zhejiang University
SHI Yaocheng, Zhejiang University
SHU Haowen, Peking University
XIE Peng, Shanghai Institute of Optics and Fine Mechanics, CAS
XU Xingyuan, Beijing University of Posts and Telecommunications
YU Yu, Huazhong University of Science and Technology

T11. Optical Design and Manufacturing

Session Chairs:
KONG Lingbao, Fudan University
XUE Donglin, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
WU Rengmao, Zhejiang University
CAO Zhongchen, Tianjin University
FENG Zexin, Beijing Institute of Technology
Program Committee:

CHENG Jian, Harbin Institute of Technology

HU Hao, National University of Defense Technology

JIANG Xiangmin, Xi’an Institute of Optics and Precision Mechanics, CAS

LI Longxiang, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

WANG Shixiang, Fudan University

WEI Chaoyang, Shanghai Institute of Optics and Fine Mechanics, CAS

YANG Gao, Shenzhen University

ZHANG Chunyu, Laser Fusion Research Center, CAEP

ZHANG Quanli, Nanjing University of Aeronautics and Astronautics

ZHU Wule, Zhejiang University

T12. Optical Sensing and Detection

Session Chairs:
WANG Jun, University of Electronic Science and Technology of China

MAO Hongxia, Beijing Institute of Environmental Characteristics

HAO Xiaopeng, Tsinghua University

WANG Peng, Shanghai Institute of Technical Physics, CAS

ZENG Longhui, Zhengzhou University
Program Committee:

LOU Zheng, Institute of Semiconductors, CAS

DENG Zhen, Institute of Physics, Chinese Academy of Sciences

HAN Jiayue, University of Electronic Science and Technology of China

JIN Libing, Beijing Institute of Space Mechanics & Electricity

TAI Qidong, Wuhan University

WANG Longfei, Beijing Institute of Nanoenergy and Nanosystems, CAS

WANG Qisheng, Nanchang University

WANG Zegao, Sichuan University

ZHANG Xutao, Northwestern Polytechnical University

T13. Optoelectronic Measurement and Metrology

Session Chairs:
ZHAO Huijie, Beihang University
ZHANG Zonghua, Hebei University of Technology
LIU Xiaoli, Shenzhen University
ZHANG Yang, Dalian University of Technology
Program Committee:

LI Xudong, Beihang University

MA Luyao, Hebei University of Technology

MA Tianlei, Zhengzhou University

WANG Jian, Huazhong University of Science and Technology

WU Zhoujie, Sichuan University

YANG Linghui, Tianjin University

ZHANG Guofeng, Xi’an Jiaotong University

T14. Optical Communication and Optical Network

Session Chairs:
GUO Lei, Northeastern University
YANG Hui, Beijing University of Posts and Telecommunications
WANG Wei, Xi’an Institute of Optics and Precision Mechanics, CAS
WEN Huashun, Nankai University
YANG Fang, Tsinghua University
Program Members:

BO Tianwai, Beijing Institute of Technology

FENG Nan, CETC 54th Institute
LI Yan, Beijing University of Posts and Telecommunications

LI Yongcheng, Soochow University
LI Zhipei, Beijing Institute of Technology
LIU Yejun, Chongqing University of Posts and Telecommunications
LU Ping, Huazhong University of Science and Technology
LU Shaowen, Shanghai Institute of Optics and Fine Mechanics, CAS

WANG Mingjun, Xi'an University of Technology
YAO Qiuyan, Beijing University of Posts and Telecommunications
YU Jihong, Beijing Institute of Technology
YU Xiaonan, Changchun University of Science and Technology

ZHANG Jiayi, Beijing Jiaotong University
ZHANG Wenrui, China Academy of Space Technology

ZHU Bingcheng, Southeast University

ZHU Huatao, National University of Defense Technology

T15. Optical Imaging and Display

Session Chairs:
ZUO Chao, Nanjing University of Science and Technology
HUANG Lingling, Beijing Institute of Technology

Program Members:
CHEN Enguo, Fuzhou University
FENG Shijie, Nanjing University of Science and Technology
GAO Peng, Xidian University
GENG Zihan, Tsinghua Shenzhen International Graduate School
HU Haofeng, Tianjin University
QIAO Wen, Soochow University
RONG Lu, Beijing University of Technology
SANG Xinzhu, Beijing University of Posts and Telecommunications
SUN Mingjie, Beihang University
WANG Fan, Beihang University
WANG Qionghua, Beihang University
WU Rengmao, Zhejiang University
ZHANG Qican, Sichuan University
ZHANG Shaohui, Beijing Institute of Technology

T16. Atmospheric, Marine and Space Optics

Session Chairs:
LI Zhengqiang, Aerospace Information Research Institute, CAS
WU Guojun, Xi’an Institute of Optics and Precision Mechanics, CAS
ZHAO Yiming, Beijing Institute of Technology
MU Tingkui, Xi'an Jiaotong University
LIU Dong, Zhejiang University

Committee Members:

BI Weihong, Yanshan University

DI Huige, Xi’an University of Technology
GUO Jinjia, Ocean University of China
GUO Shiping, Xi’an Jiaotong University
HUANG Genghua, Shanghai Institute of Technical Physics, CAS

LI Jing, Beijing Institute of Telemetry Technology

MA Yi, First Institute of Oceanography, Ministry of Natural Resources

TAO Bangyi, Second Institute of Oceanography, Ministry of Natural Resources
TIAN Zhaoshuo, Harbin Institute of Technology

WANG Xuan, Wuhan University

XU Jing, Zhejiang University

YAN Tingyu, Chengdu University of Information Technology
ZHANG Lu, National Satellite Meteorological Centre
ZHAO Wei, National Satellite Ocean Application Service

T17. Astronomical Technologies and Instrumentation

Session Chairs:
GE Jian, Shanghai Astronomical Observatory, CAS
RAO Changhui, Institute of Optics and Electronics, CAS
FAN Yizhong, Purple Mountain Observatory, CAS
JI Wang, The Ohio State University
Committee Members:
HE Jinping, Nanjing Institute of Astronomical Optics & Technology, CAS
JI Hangxin, Nanjing Institute of Astronomical Optics & Technology, CAS

JIANG Peng, National Astronomical Observatories, CAS

LI Chuan, Nanjing University

LIN Jun, Yunnan Astronomical Observatory, CAS
XIONG Shaolin, Institute of High Energy Physics, CAS
YAO Kainan, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
ZHANG Lanqiang, Institute of Optics and Electronics, CAS

T18. Biomedical Photonics

Session Chairs:
CHEN Liangyi, Peking University
QU Junle, Shenzhen University
FEI Peng, Huazhong University of Science and Technology
Committee Members:

CHEN Wei, Huazhong University of Science and Technology
FU Ling, Hainan University
GU Bobo, Shanghai Jiao Tong University
HUANG Xiaoshuai, Peking University
JI Minbiao, Fudan University
KONG Lingjie, Tsinghua University
LI Haoyu, Harbin Institute of Technology
WENG Xiaoyu, Shenzhen University
YANG Qing, Zhejiang University
ZHANG Xiaodong, Tianjin University
ZHANG Yongdeng, Westlake University

T19. Energy Photonics

Session Chairs:
HAN Hongwei, Huazhong University of Science and Technology
ZHAO Qing, Peking University
LI Gang, The Hong Kong Polytechnic University
CHEN Yonghua, Nanjing Tech University

Committee Members:
HOU Jianhui, Institute of Chemistry, CAS
LI Yaowen, Soochow University
LIU Mingzhen, University of Electronic Science and Technology of China
WU Yongzhen, East China University of Science and Technology
YOU Jingbi, Institute of Semiconductors, CAS
ZHANG Lijun, Jilin University
ZHAO Yixin, Shanghai Jiao Tong University
ZHOU Huanping, Peking University
ZHOU Yinhua, Huazhong University of Science and Technology
ZOU Yingping, Central South University

Consisting of the 15th Applied Optics and Photonics China (AOPC 2026) and 17th Photonics Expo Beijing, the World Photonics Conference 2026 will be held on July 17-19 2026 in Beijing, serving as a premier international platform that integrates academic exchange, industrial collaboration, and technology demonstration in optics and photonics fields, attracting thousands of attendees every year.

Sponsor:

Chinese Society of Optical Engineering (CSOE)

Technical Co-sponsor:

SPIE

Organizers:

Chinese Society of Optical Engineering (CSOE)

PhotoniX
PhotoniX Life
PhotoniX Synergy

Hotels：

1. North Star Huiyuan-Prime Hotel

Address: Building D of Hui Yuan prime Hotel , No.8 BeiChen East Road, ChaoYang District, Beijing, China.

北京汇园酒店公寓贵宾楼

地址：北京市朝阳区北辰东路8号，北辰汇园酒店公寓贵宾楼（D座）

2. North Star Yayuncun Hotel

Address: Building A of Hui Yuan prime Hotel, No.8 BeiChen East Road, ChaoYang District, Beijing, China

北京亚运村宾馆

地址：北京市朝阳区北辰东路8号，北辰亚运村宾馆A/B/C座

Hotel Booking for Chinese Attendee (in Chinese):

北辰汇园酒店公寓贵宾楼套间（大床）￥600元/间含早餐；
北辰汇园酒店公寓贵宾楼标准间（双床）￥580元/间含早餐；

北辰亚运村宾馆A座￥480元/间含早餐；

北辰亚运村宾馆BC座￥450元/间含早餐

预定方式：

酒店负责人：周斌 18611250221（微信同号）

预定时间：无特殊紧急情况每日9:00—19:00可打电话或微信进行预订。

定金条款：参会代表确认好房间后可通过对公转账或微信转账方式进行定金确认，交定金后房间整晚保留，如取消房间酒店仅接受提前48小时免费取消，入住当天的房间不支持取消。

对公汇款酒店开发票只能开取汇款公司账号，如个人支付请勿对公打款。

个人支付定金可通过微信方式支付，入住后原路退回，不支持冲抵房费，仅做担保房间使用。

备注：支付定金的房间，当日未到的酒店会收取首日空房损失费。

班车安排：会议期间酒店提供早晚各一趟免费班车接送，具体时间安排会议开始前酒店大堂张贴班车计划表（通过其他渠道订房无此服务）。

酒店汇款账号：

账户名称：北京北辰实业股份有限公司公寓经营管理分公司

开户银行：中国工商银行北京北辰路支行

开户账号：02000418290155722

Hotel Booking for International Attendee:

North Star Huiyuan-Prime Hotel:
Double room: ￥600 per night with breakfasts;
Twin room: ￥580 per night with breakfasts;

North Star Yayuncun Hotel:

Building A: ￥480 per night with breakfasts;

Building BC: ￥450 per night with breakfasts;
Please contact Mr. Zhou, (+86)-18611250221.

Registration Fee：

Type	Before and on 2026.6.20	After 2026.6.20	CSOE Member
Regular Registration	USD 600	USD 650	USD 500
Student Registration	USD 300	USD 350	USD 300

Registration Includes:

* Admission to all technical sessions, plenaries, panels and exhibition.

* Lunches and coffee breaks during the conference.

* Conference program book, technical digest and conference bag.

* Publication fee and accommodation fee is not included.

Pay Registration Fee for International Attendee:

Payment Type：

Remittance transfer

Name & Address：CHINESE SOCIETY FOR OPTICAL ENGINEERING/NO.1 BLDG HAIYING ROAD FENGTAI DISTRICT BEIJING CHINA

Number：0200296409200177730

Account Opening Bank：Industrial and Commercial Bank of China Limited Beijing Science and Technology Park Sub-branch（中国工商银行股份有限公司北京科技园支行）

Bank Number：102100029646

Corporate Organization Code：71784043-7

SWIFT CODE：ICBKCNBJBJM

Collaborative Publications:

PhotoniX (SCI)
SPIE Conference Proceedings (EI)

Journal of Electronic Imaging (SCI)

Journal of Applied Remote Sensing (SCI)

Optical Engineering (SCI)

Journal of Micro/Nanolithography, MEMS, and MOEMS (SCI)

Photonic Sensors (SCI)

Journal of Infrared and Millimeter Waves (SCI)

Journal of Innovative Optical Health Science (SCI)

Frontiers of Information Technology & Electronic Engineering (SCI)
Infrared Physics & Technology (SCI)

Infrared and Laser Engineering (EI)

Acta Photonica Sinica (EI)

Journal of Semiconductors (EI)

Study on Optical Communications

Journal of Terahertz Science & Electronic Information Technology

Optical Communication Technology

T1. Laser Technology and Applications

LIN Xuechun, Institute of Semiconductors, CAS, China (Keynote)
High-performance pulsed lasers and applications

PANG Meng, Shanghai Institute of Optics and Fine Mechanics, CAS, China (Keynote)
Nonlinear optics in gas-filled hollow-core fiber: few-cycle pulse compression and tunable UV light generation

YI Linlin, Shanghai Jiao Tong University, China (Keynote)
Redefine lasers with AI

ZHENG Yaohui, Shanxi University, China (Keynote)
Single-frequency low-noise laser technology

BAI Zhenxu, Hebei University of Technology, China
High-power and high-coherence laser generation technology based on stimulated brillouin scattering

FU Xing, Tsinghua University, China
Single-photon LiDAR for non-line-of-sight imaging
Kafai Mak, Huazhong University of Science and Technology, China
Cr:ZnS(e) mid-infrared lasers for ultrafast science

MA Pengfei, National University of Defense Technology, China
Research progress and development trend of high-power single frequency fiber laser

MENG Xianghao, Beijing University of Technology, China
High energy picosecond pulsed laser amplifier based on cascaded zig-zag slabs

QI Pengfei, Nankai University, China
Filament based ionizing radiation sensing technology

SHENG Quan, Tianjin University, China
Ultrahigh-order (>1500th) vortex laser based on simple off-axis pumping

TANG Yazhou, Tianjin Capillary Optoelectronic Technology Co., Ltd., China
Femtosecond laser fabrication for industrial applications of fiber optic components

WANG Fang, Nankai University, China
Development and application of the 2μm pulsed laser in deboning

WANG Qing, Beijing Institute of Technology, China
Mid-infrared femtosecond laser and amplifier based on Cr:ZnS/ZnSe

WANG Sha, Sichuan University, China
Laser field manipulation and its applications in multimode optical fibers

WEI Xiaoming, South China University of Technology, China
High-performance femtosecond fiber laser for multiphoton applications
XIAO Hu, National University of Defense Technology, China
High-power single-mode fiber lasers with functional fibers and devices

XIAO Qirong, Tsinghua University, China
Research on spectral control and spatial modulation of fiber lasers
YANG Xuezong, Hangzhou Institute for Advanced Study, University of CAS, China
A single-frequency 509 nm laser with output power of 101.3 W

YAO Chuanfei, Beijing University of Technology, China
Research progress of mid-infrared ultrashort pulse fiber laser

T2. Infrared Technology and Applications

LI Xue, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China (Keynote)

TBD
Xavier Maldague, Université Laval, Canada (Keynote)

TBD
Mauro Luciano Baesso, State University of Maringá, Brazil (Keynote)
QCL-induced temperature rise and heat accumulation in photothermal microscopy of biosystems

Arsenii O. Chulkov, Tomsk Polytechnic University, Russia

TBD
DENG Zhen, Institute of Physics, Chinese Academy of Sciences, China

TBD
GAO Bin, Kang Yukuan, University of Electronic Science and Technology of China, China
Thermal diffusion recast as energy-density transport: divergence-saliency thermography robust depth indication for nondestructive evaluation

GU Yi, Wuxi CAS Dexin Sensing Technology Co., Ltd., China
Development of InGaAs photodetectors for SWIR applications

DENG Baoyuan, He Yunze, Hunan University, China
From dynamic 3D thermography to embodied intelligent inspection: Exploration and prospects of infrared nondestructive testing

HU Jue, No.601 Institute, The Sixth Research Academy, China Aerospace Science and Industry Corporation, China
Truncated correlation photothermal coherence tomography for inspection and diagnosis of all-composite sandwich structures with a hexagon honeycomb core manufactured with the tailor-folding approach

LI Tianxin, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China
QWIPs for LWIR imaging with mK sensitivity

LIU Junliang, Shandong University, China
Adaptive target-feedback-modulated InGaAs-based single-photon detector

QIAO Hui, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China
High performance HgCdTe infrared detectors for Fengyun meteorological satellites

QIU Lei, Tongji University, China
Research on compact optoelectronic array sensing and ddge computing chip design

SUN Jianfeng, Harbin Institute of Technology, China

GM-APD laser radar technology and its applications

WANG Fei, Harbin Institute of Technology, China

TBD
WANG Pengfei, China Aerospace Defense Technology Academy, China
Composite detection technology of infrared & laser single‑photon imaging

XU Zhicheng, CAS Aibisi (Changzhou) Optoelectronic Technology Co., Ltd., China

TBD
Pengfei Zhu, Federal Institute for Materials Research and Testing (BAM), Germany
Three-dimensional photothermal super-resolution imaging

ZHENG Lixia, Southeast University, China
Ultra-wide range free-running SPAD array readout circuit

T3. THz Technology and Applications

HU Weidong, Beijing Institute of Technology, China (Keynote)
The State-of-the-art of terahertz imaging technologies

SUN Yaoming, Jiangsu Wenzhi Microelectronics Co., Ltd., China (Keynote)
Single-chip 122GHz radar sensor for vital signal detection

ZHANG Yong, University of Electronic Science and Technology of China, China (Keynote)
Key technologies for terahertz power combining

CONG Longqing, Southern University of Science and Technology, China (Keynote)

TBD
CHENG Jierong, Nankai University, China (Keynote)
Terahertz dynamic beam manipulation and applications

CHEN Sai, Beihang University, China
Terahertz nonlocal broadband achromatic metalens
GE Hongyi, Henan University of Technology, China
Research on design method of tunable multifunctional metamaterial absorber for terahertz band

MA Ping, University of Science and Technology of China, China
High-bandwdith communication photonic devices and sub-terahertz high-capacity interconnects

WANG Huabin, Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, China
Terahertz nanoscopy of single biomolecules

WANG Lin, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China

TBD
WANG Yue, Xi'an University of Technology, China
Research on resonance characteristics of modified carbon nanotube film metasurfaces and trace substance sensing

WANG Chang, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, China
Semiconductor terahertz photonics devices and their application

WU Wengang, Peking University, China
Research on highly sensitive sensing of trace biochemical substances based on terahertz metasurfaces

XU Su, Jilin University, China
Terahertz on-chip all-dielectric waveguiding devices

ZHAO Shiqiang, Nankai University, China
Terahertz room temperature detection and compact spectrometer construction
ZHANG Hai, Harbin Institute of Technology, China
Three-dimensional wide-bandwidth quantum energy truncation terahertz coherence tomography

T4. Optical Spectroscopy and Applications

Thomas W. Bocklitz, Friedrich Schiller University Jena, Germany (Keynote)
Physics informed machine leanring and deep learning for spectral and image data

DUAN Yixiang, Sichuan University, China (Keynote)
Current status of instrument R&D and market prospects for laser-induced breakdown spectroscopy

CHAI Yang, The Hong Kong Polytechnic University, China (Keynote)
Bioinspired in-sensor computing for artificial vision

BAO Chengying, Tsinghua University, China
Microresonator-anchored fourier domain mode-locked laser mid-infrared spectroscopy

BIAN Liheng, Beijing Institute of Technology, China
A high-resolution polarization-hyperspectral image sensor for complex intelligent sensing

HAN Chunyang, Xi'an Institute of Optics and Precision Mechanics, CAS, China
Spectrometer-Free interferometric sensing: A time-domain vernier effect approach

LI Bo, Changchun Institute of Optics, Fine Mechanics and Physics, CAS, China
Miniaturized space hyperspectral detection technology

LI Bo, Yazhou Bay National Laboratory, China
Seeing with spectra: AI-driven fusion of visual and spectral sensing for smart agriculture

LI Wenlong, Tianjin University of Traditional Chinese Medicine, China

TBD
REN Wenyi, Northwest A&F University, China
Compressive spectropolarimetric imaging and its applications

TAN Qinghai, University of Science and Technology of China, China
Valley switching in Moiré semiconductors correlated states

WANG Jun, University of Electronic Science and Technology of China, China
Research on high performance and multifunctional infrared detection technology using organic materials

YUAN Xin, Westlake University, China
Snapshot spectral compressive imaging via spectral reflectance decomposition

ZHANG Bo, Zhejiang University — Ultrafast Laser-Induced Self-Organization Phenomena in Transparent Materials for On-Chip Integrated Micro-Spectrometers

ZHANG Jiangbin, National University of Defense Technology — Detection and Passivation of Defect States in Optical Gain Fibers Using Optical Spectroscopy

ZHAO Ruocan, University of Science and Technology of China, China
Scalable dual-comb atmospheric spectroscopy: From field deployment to space-ground networks

ZHAO Shaoyu, East China Institute of Optoelectronic Integrated Devices, China
Tunable MEMS fabry-perot interferometer technologies and applications

ZHOU Huixin, Xidian University, China
TBD

T5. Ultrafast Optics

HU Minglie, Tianjin University, China (Keynote)
Intelligence-assisted nonlinear dynamics control of high power femtosecond lasers

Luc Bergé, University of Bordeaux, France (Keynote)
Brunel radiations driven by ultrafast two-color lasers: From terahertz to visible x

CHENG Chuan, Stanford University, USA
Visualizing ultrafast structural and spectroscopic dynamics of molecules in strong laser fields

DAI Linjie, Peking University, China
Non-equilibrium dynamics in perovskite nanocrystals

GAO Yunan, Beijing Jiaotong University, China
Ultrafast photoemission electron microscopy meets with 2D materials

HONG Hao, Peking University, China
Low-dimensional materials for optical crystals

JIANG Yifeng, East China Normal University, China
Capturing ultrafast molecular motions and lattice dynamics using femtosecond electron and X-ray diffraction methods

LI Zhaoyang, Shanghai Institute of Optics and Fine Mechanics, CAS, China

Beyond 100 petawatt laser and related technology development

LIANG Houkun, Sichuan University, China
On-chip high-power broadband long-wave infrared parametric conversion

LIAO Guoqian, Institute of Physics, CAS, China
Generation and application of terawatt-scale terahertz radiation

LIU Keyang, Xi’an Institute of Optics and Precision Mechanics, CAS, China
Research progress on directly liquid-cooled Yb:YAG thin-disk lasers

LIU Yang, CSRayzer Optical Technology Co., Ltd., China
Integrated fiber optic frequency comb

SU Xinyang, Beijing Jiaotong University, China
Long-wave mid-infrared ultrashort laser pulse generation based on two-color fiber CPA: experiment, modeling, and extended study

TAO Zhensheng, Fudan University, China
Terahertz emission spectroscopy evidences sub-nanometer orbital diffusion lengths in heavy metals

XU Lu, Huazhong University of Science and Technology, China
Multi-GW isolated attosecond laser based on few-cycle two-color synthesizer

YAO Jinping, Shanghai Institute of Optics and Fine Mechanics, CAS, China
Air-lasing-based coherent raman spectroscopy

ZHANG Dongfang, Shanghai Jiao Tong University, China
Terahertz-driven electron source for ultrafast imaging

ZHANG Jinwei, Huazhong University of Science and Technology, China
High-power ultrafast thin-disk laser with fundamental transverse mode and vortex beam

T6. Micro-Nano Optics

WANG Shuming, Nanjing University, China (Keynote)
Optical imaging based on metasurfaces

XIAO Shumin, Harbin Institute of Technology, China (Keynote)
All-Dielectric metasurfaces: Fabrication and optical manipulation

LI Guixin, Southern University of Science and Technology, China (Keynote)
Optical geometric phase metadevice

Taco Dirk Visser, Shandong Normal University, China (Keynote)
Dispersive tuning of intrapulse polarization

CHEN Ji, Southeast University, China
Optical wireless communication and detection based on metasurface

CHEN Peng, Nanjing University, China
Chiral liquid crystal mediated dynamic planar optics

CHEN Zhi, Kunming University of Science and Technology, China
Ultrafast laser 3D micro-nano manufacturing for passive/active photonic quantum circuits

DONG Guoyan, University of Chinese Academy of Sciences, China
Study on luminescence modulation and enhancement based on micro-nano composite effects

GUI Lili, Beijing University of Posts and Telecommunications, China
Multifunctional vortex meta-lasers: From high-order reconfigurable to space-time co-regulation

HE Qiang, Huazhong University of Science and Technology, China
Non-volatile programmable photonics with phase change materials

HU Zhiyong, Jilin University, China
Integrated micro/nano photonic devices enabled by laser 3D printing

LI Zezheng, Tsinghua University, China
3D functional photonic devices enabled by ultrafast laser writing

LI Xin, Qingdao Tianren Micro-Nano Technology Co., Ltd., China
Recent development of nanoimprint lithography

LIU Hongliang, Nankai University, China
Fabrication of stable structural colors on transparent dielectric material surfaces via ion implantation and laser direct writing

LIU Yongtao, Nanjing University of Science and Technology, China
Multimodal single-beam super-resolution imaging via nonlinear excitation

Haoran Ren, Monash University, Australia
Lightwave valleytronics based on a nanophotonic chip

SHAN Xuchen, Beihang University, China
Intelligent algorithm-based nanoscale optical tweezers

TIAN Youliang, Qingdao Hisense Laser Display Co., Ltd., China
The application of micro-nano optics in laser display

XU Ran, Jingcui Optics, China
Photopatterned liquid crystal planar optical elements

ZHANG Qiming, University of Shanghai for Science and Technology, China
Research on optical neural networks and data storage enabled by nano fabrication

ZHANG Wanjiao, Advanced Research Institute, National University of Defense Technology, China
Design and mass fabrication of metalenses based on nanoimprint lithography technology

T7. Fiber Optics

BA Dexin, Harbin Institute of Technology, China
Optical frequency domain reflectometry sensing technology and its applications

BAO Haihong, The Hong Kong Polytechnic University, China
Dual-comb photoacoustic brillouin spectroscopy in Hollow-Core fibers for dynamic optomechanical measurements

CHEN Jiasong, PipeChina Energy Storage Technology Co., Ltd., China
Application of distributed optical fiber sensing technology for monitoring in salt cavern gas storage

GUAN Xun, Shenzhen International Graduate School, Tsinghua University, China
Monolithically integrated optoelectronic sensors for multidimensional physico-chemical sensing

JIANG Junfeng, Tianjin University, China
Highly sensitive optical fiber sensing technology

JIN Long, South China Normal University, China
Fiber-optic ultrasound sensing for Microcirculation imaging in freely-moving humans

LI Baisong, PipeChina LNG Co., Ltd., China
Application of optical fiber sensing technology in monitoring of LNG terminals

LI Jian, Taiyuan University of Technology, China
Chaotic distributed optical fiber sensing

LI Yafei, Jinan University, China
Microcavity-enhanced optoelectronic fiber photoacoustic spectroscopy for ppb-level trace gas sensing

LIU Qingwen, Shanghai Jiao Tong University, China
Phased array antenna shape sensing system based on optical frequency domain reflectometry

TIAN Feng, Beijing University of Posts and Telecommunications, China
High-speed transmission technology based on new-type optical fibers

WANG Qingbo, PipeChina Science and Technology Research Institute, China
Single-fiber multi-parameter hybrid early warning technology for pipelines and its application

WU Huijuan, University of Electronic Science and Technology of China, China
Advanced signal processing technology in DAS and its applications

XIANG Meng, Guangdong University of Technology, China
Key technologies for digital subcarrier multiplexing-based integrated fiber-optic communication and sensing

XU Yi, Guangdong University of Technology, China
Compressive transmission matrix for multimode fibers

YUAN Jinhui, Beijing University of Posts and Telecommunications, China
Micro-fiber biochemical sensing

ZHAO Pengcheng, Leibniz Institute of Photonic Technology, Germany
Spectroscopic gas sensing with micro-/nano-structured optical fibers

ZHENG Kaiyuan, The Hong Kong University of Science and Technology, China
On-chip photothermal spectroscopy for gas sensing

T8. Optoelectronic Devices and Integration

HAN Xiuyou, Dalian University of Technology, China
Silicon-based optoelectronic integrated technology for anti-interference communications

HAO Hu, Technical University of Denmark, Denmark
Photonic integrated circuits for freespace optical communications and LiDAR

LIN Tianying, Beijing Haiguang Xinzheng, China
High-density packaging and smart manufacturing for CPO/NPO optical interconnects
Andrew Poon, The Hong Kong University of Science and Technology, China
SiC-on-insulator integrated platforms for nonlinear and quantum photonics

QIN Jun, Beijing Information Science and Technology University, China
Signal equalization for ultra-high-speed silicon photonics system

Guanghui Ren, RMIT University, Australia
Hybrid integrated photonic devices enabled by micro-transfer-printing

SUN Lu, Shanghai Jiao Tong University, China
Integrated supermode photonics based on supersymmetric transformation

WANG Chengli, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, China
Emerging opportunities in integrated photonics with lithium tantalate

Ke Wang, RMIT University, Australia
Beyond data transmission: Toward cognitive optical wireless networks

WANG Wei, Tianjin Jianhe Bafang Optoelectronic Technology Co., Ltd., China
SOA empowers OCS optical cross-connect

Kenneth K Y Wong, The University of Hong Kong, China
Multi-dimensional light control with metasurfaces: from single-cell design to fiber-integrated platforms

XIE Peng, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China
Hyper-parallel optical computing and application

XUE Jintao, Beijing Lingxi Photonics, China
Advances in CPO micro-ring engine technologies for AI infrastructures and beyond

Guangya Zhou, National University of Singapore, Singapore
Structured spectral illumination for spectroscopic sensing applications

T9. Quantum Optics

CHEN Ziyong, Beijing Institute of Technology, China
Optical-frequency-comb-based time-frequency transfer

CHEN Mo, China Quantum Metrology Technology (Zhejiang) Co., Ltd. , China
China's path toward industrialization of quantum precision measurement technologies

DONG Ruifang, National Time Service Center, Chinese Academy of Sciences , China
Quantum microwave photonics: A systematic pathway from single-photon detection to entanglement-enhanced processing

FANG Fang, National Institute of Metrology, China
Research progress of ytterbium ion optical clocks at NIM

JIANG Yanyi, East China Normal University , China
A frequency synthesizer for precision spectroscopy

LIU Anjin, Institute of Semiconductors, Chinese Academy of Sciences, China
VCSEL for advanced sensing applications

LIU Liang, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China
TBD

LIU Yuansheng, Zhejiang University, China
Fiber-coupled fully integrated atomic magnetometer and its application prospects

PAN Duo, Peking University, China
Beatnote linewidth distribution function for characterizing ultra-narrow-linewidth lasers

PAN Yijie, National Institute of Metrology, China

TBD
SHI Tiantian, Peking University, China

TBD
WANG Yu, Beijing Changcheng Institute of Metrology and Measurement, AVIC, China
Advances in quantum measurement technology for gravitational acceleration

WANG Zhongkai, Shenzhen Institute for Quantum Science and Engineering, China

TBD
XIE Xiaopeng, Peking University
Highly coherent two-color laser and its application for low-noise microwave generation

XU Bingjie, No.30 Research Institute of China Electronics Technology Group Corporation, China
High performance continuous variable quantum key distribution

XUE Xiaobo, Beijing Institute of Radio Metrology and Measurement, China
A calcium beam atomic clock towards timekeeping

YANG Zining, National University of Defense Technology, China
TBD

T10. AI Photonics

FU Tingzhao, National University of Defense Technology, China
Research progress and challenges in on-chip diffractive optical computing

GAO Yunhui, Tsinghua University, China
Model-based deep learning for time-resolved computational microscopy

GENG Zihan, Shenzhen International Graduate School, Tsinghua University, China
On-chip tunable optoelectronic fusion computing

Francisco Javier Martínez Guardiola, University of Alicante, Spain
Convolutional neural network applied to validate experimental holographic data storage setup

HE Zehao, Capital Normal University, China
Transformer-based enhancement for low-light terahertz focal plane imaging

HU Jingtian, Harbin Institute of Technology, Shenzhen, China
Training of free-space optical visual processors

LIU Fei, Xidian University, China
Research on multidimensional information decoupling in scattered optical fields

MA Guangdong, Xi'an Jiaotong University , China
Unidirectional imaging and image generation with diffractive neural networks

MA Qian, Southeast University , China
Diffractive neural networks based on information metamaterials

PU Guoqing, Shanghai Jiao Tong University, China
Intelligent single-shot full-field characterization over femtosecond pulses

TANG Ju, Guangdong University of Technology, China
Intelligent wavefront sensing and prediction technology

TONG Yeyu, The Hong Kong University of Science and Technology (Guangzhou), China

TBD
WU Jiachen, Zhejiang University, China
Multi-frame fusion imaging with adaptive parameter estimation

ZHANG Xiaobei, Shanghai University, China
Microbottle resonator for optofluidic sensing

ZHOU Hailong, Huazhong University of Science and Technology, China
Intelligent computing based on photonic logic devices

ZHOU Tiankuang, Beijing Institute of Technology, China
Photonic intelligent computing architecture and chips

T11. Optical Design and Manufacturing

CHEN Guoda, Zhejiang University of Technology, China
Frequency domain error control of aerostatic spindle for ultra-precision machining of optical components
CHENG Jian, Harbin Institute of Technology, China
Control of cross-scale micro/nano/atomic defects on high-precision intense laser optical surfaces

FENG Yunpeng, Beijing Institute of Technology, China
Magnetorheological jet technology for microstructure surface
HU Hao, National University of Defense Technology, China
Ultra-precision optical component manufacturing technologies and equipment

JIANG Xiangmin, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, China

TBD
LI Longxiang, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, China
Optical fabrication technology based on industrial robots

PIAO Mingxu, Changchun University of Science and Technology, China
Ultra-simplified optical imaging technology
WEI Chaoyang, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China
Atomic-level defect repair and control technologies for optical surfaces

XIANG Huazhong, University of Shanghai for Science and Technology, China
Research on optimal design of free-form progressive addition lenses based on wavefront tracing
YANG Gao, Shenzhen University, China
Design and hot embossing of double-side micro/nano optical components

YANG Yi, Wuhan University, China
Accurate biomimetic optofluidic platform for smart point-of-care testing

YU Lei, Hefei Institutes of Physical Science, Chinese Academy of Sciences, China
Computational framework of point cloud-driven freeform design for imaging optics

ZHANG Chunyu, Research Center of Laser Fusion, China Academy of Engineering Physics, China

TBD
ZHANG Quanli, Nanjing University of Aeronautics and Astronautics, China
Laser-assisted grinding technology for hard and brittle materials

ZHAO Zejia, Shenzhen University, China
Research on the mechanism of ultrafast laser-induced glass modification

ZHU Wule, Zhejiang University, China

T12. Optical Sensing and Detection

FU Lan, Australian National University, Australia
Low dimensional III-V compound semiconductor

LEI Wen, University of Western Australia, Australia
Semiconductor infrared sensor

DAI Mingjin, Zhengzhou University, China
Low-dimensional semiconductor vortex photodetectors

FANG Honghua, Renmin University of China, China
A novel exciton-based terahertz detector

HAN Jiayue, University of Electronic Science and Technology of China, China
Novel multidimensional photodetector

HUANG Hai, Fudan University, China
Exploration of highly sensitive in-sensor computing photodetectors

LIU Pengxiang, Shenyang Institute of Automation, Chinese Academy of Sciences, China
High sensitivity mid-wave and long-wave infrared detection based on optical up-conversion

PENG Xin, Beijing University of Posts and Telecommunications, China
Real-time underwater terrain perception based on point cloud photonic computing

SUN Haiding, University of Science and Technology of China, China
Gallium nitride-based integrated ultraviolet optoelectronics: Applications in spectroscopic detection and optical communication

TAN Chaoliang, City University of Hong Kong, China
Structural engineering and anti-tumor biomedical applications of two-dimensional layered nanomaterials

DIAN Renwei, Hunan University, China
Hyperspectral fusion imaging
TIAN Yan, Huazhong University of Science and Technology, China
Infrared hyperspectral deep learning unmixing based on nonlinear spectral model

YANG Xianguang, Jinan University, China
Voltage‑controlled electroluminescence from heterojunction for switchable emission

WANG Fakun, Huazhong University of Science and Technology, China
Mid-infrared multidimensional photodetector

WANG Peng, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China
Research progress of Infrared photodetectors for Astronomical Observations

ZENG Longhui, Zhengzhou University, China
Two-dimensional transition metal dichalcogenides and advanced optoelectronic devices
ZHANG Xutao, Northwestern Polytechnical University, China
III-V nanowire laser

T13. Optoelectronic Measurement and Metrology

Hussam Muhamedsalih, University of Huddersfield, UK (Keynote)
Advancing surface metrology in smart manufacturing: Transition from metrology laboratory to production line

Beiwen Li, University of Georgia, USA

TBD
DONG Jingtao, Hefei University of Technology, China
High-contrast high-resolution spiral phase contrast imaging: From Fourier filtering to match filtering

GU Tianqi, Fuzhou University, China

TBD
HU Yan, Nanjing University of Science and Technology, China
Three-dimensional structured light imaging bnased on cross-orthogonal perspective and Application

CHEN Huai'an, University of Science and Technology of China, China
Autonomous intelligent microscopic imaging and sensing

GAN Xiaochuan, AVIC Changcheng Institute of Metrology & Measurement, China
A few of technological advancements in dimensional metrology
LI Tianliang, Wuhan University of Technology, China

TBD
LIAN Meng, Dalian University of Technology, China

TBD
JIANG Hongzhi, Beihang University, China
Parallel single-pixel imaging principles and applications

REN Mingjun, Liding Optics / Shanghai Jiao Tong University, China

TBD
SU Rong, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China

TBD
TANG Qijian, Shenzhen University, China
Binary coding for structured light 3D reconstruction

WANG Yajun, Sichuan University, China
High-dynamic-range and high-accuracy 3D measurement for complex material surfaces

YANG Xiao, Northwestern Polytechnical University , China
Dual-wavelength holographic microstructure reconstruction technique

YIN Wei, Nanjing University of Science and Technology , China
Real-time, high-precision, and miniaturized 3D imaging techniques and their applications based on structured light projection

ZHANG Zibang, Jinan University, China
Slow-motion single-pixel imaging for fast repetitive events

ZHU Jinlong, Huazhong University of Science and Technology, China——Optical inspection and imaging of semiconductor nanodefects

T14. Optical Communication and Optical Network

Massimo Tornatore, Politecnico di Milano, Italy (Keynote)
Hollow-core fiber: Moving toward network-scale deploymen

Miguel Angel Cagigas García, Instituto de Astrofísica de Canarias, Spain (Keynote)
Simulation and experimental demonstration of diffractive wavefront sensors for ground-based optical communications links

SONG Jian, Tsinghua University, China (Keynote)
Visible light communication technology for internet of vehicles

WANG Wei, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, China (Keynote)
Development and prospect of deep space laser communication

ZOU Xihua, Southwest Jiaotong University, China (Keynote)
Doubled spreading efficiency for an ultra-wideband microwave covert communication system

ZHOU Linjie, Shanghai Jiao Tong University, China (Keynote)
Integrated silicon photonics: Bridging high-speed communications and intelligent sensing

Julian Chen, University of British Columbia, Canada
Communication and sensing technology based on ultraviolet light

LI Xiang, China University of Geosciences (Wuhan), China
Polarization sensing in fiber optical transmission system

LI Xin, Beijing University of Posts and Telecommunications, China
Research on resilient artificial intelligence data center optical networking technologies

LI Zhaoyun, The 34th Research Institute of China Electronics Technology Group Corporation, China
Security encoding technology for optical fiber communication

LIAN Zhenggang, Wuhan Changyingtong, China
Hollow-core microstructured fiber technology and application

NI Wenjun, South-Central Minzu University, China
Photoacoustics/photothermal spectrum for trace gas sensing

SHEN Shikui, China Unicom Research Institute, China
Optical networks enable AI interconnection

Peiji Son, University of Cambridge, United Kingdom
A unified OLT-side fiber nonlinearity pre-compensation scheme for heterogeneous-reach ONUs

WANG Qiang, Harbin Institute of Technology, China
Research on high-precision prediction method for the beacon spot in satellite laser communications

WANG Wei, Beijing University of Posts and Telecommunications, China
Key technologies for high-strength laser networking of low-orbit satellites

WEI Zixian, The Hong Kong Polytechnic University, China
Rate dynamics and digital signal processing in higher-speed passive optical networks

ZHANG Ruofan, Xi'an Branch of China Academy of Space Technology, China
Infrastructure for space: Application and prospect of laser intersatellite link

ZHANG Xin, Engineering University of Information Support Force, China
Radio-over-fiber integrated sensing and communication waveform and covert communication technology

T15. Optical Imaging and Display

Chaohao Chen, University of Technology Sydney, Australia
TBD

CHEN Enguo, Fuzhou University, China

TBD
CHEN Jinhui, Xiamen University, China

TBD
HU Haofeng, Tianjin University, China

TBD
JIANG Cheng, Guangdong Yejia Optoelectronics, China

TBD
Chulmin Joo, Yonsei University, South Korea

TBD
LIU Jingdan, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China
Recent advances in single-shot computational ultrafast imaging

MA Yaobin, China Center for Information Industry Development, China

TBD
PAN An, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, China
Quantitative phase imaging via fourier ptychography and its applications

PENG Junzheng, Jinan University, China
Annular illumination-aperture-coded light-field microscopy enables ultra-depth-of-field observation of free-swimming zooplankton

QIN Zong, Sun Yat-sen University, China
Opportunities from the multi-aperture architecture of near-eye light-field displays

SHI Kebin, Peking University, China
High resolution optical imaging enabled by field engineering

WANG Fan, Beihang University, China
Upconverting nonlinearity enabled deep tissue super-resolution imaging

WEI Wang, National University of Singapore, Singapore

TBD
WU Zhoujie, Sichuan University, China
Parallel single-pixel 3D imaging under global illumination: Performance modeling and emerging opportunities

YANG Jiamiao, Shanghai Jiao Tong University, China
Research on extended depth-of-field imaging and spatial compensation techniques for high-precision 3D microscopic measurement

Thomas Zentgraf, Paderborn University, Germany

TBD
ZHANG Zonghua, Hebei University of Technology, China
3D shape measurement with concave mirror assisted deflectometry for specular surface

T16. Atmospheric, Marine and Space Optics

Detlef G Mueller, Wuhan University, China (Keynote)
Raman spectroscopy lidar for desert dust observations

Li Guoyuan, Land Satellite Remote Sensing Application Center, Ministry of Natural Resources, China (Keynote)
Processing and applications of GF-7 satellite laser altimetry data

BI Weihong, Yanshan University, China

TBD
GUO Shiping, Xi'an Jiaotong University, China
Forward model and retrieval algorithms for static wind imaging Michelson Interferometer (SWIMI)

HE Xiaoning, CAS Xiguang Aerospace Technology Group Co., Ltd., China
Integration of satellite hyperspectral remote sensing big data and AI to empower diverse industry applications

TAO Bangyi, Second Institute of Oceanography, Ministry of Natural Resources, China
Spatiotemporal-spectral fusion for ocean satellites in highly dynamic waters

TIAN Ye, Ocean University of China, China
Underwater laser-induced breakdown spectroscopy (LIBS) towards deep-sea applications

TIAN Zhaoshuo, Harbin Institute of Technology (Weihai), China

TBD
WANG Tao, National Satellite Meteorological Center, China
Sub-meter optical satellite imagery adjacency effect correction

XU Rui, Shanghai Institute of Technical Physics, Chinese Academy of Sciences (SITP, CAS)
Design and application of asteroid visible and infrared imaging spectrometer
YAN Tingyu, Chengdu University of Information Technology, China
Wide-field birefringent doppler interferometry for near-space wind imaging

YU Haotian, Nanjing University of Science and Technology, China
Underwater high-precision 3D reconstruction based on structured light encoding

ZHANG Lu, National Satellite Meteorological Center, China
Measurement of CO2 by ACDL lidar onboard DQ-1 satellite

T17. Astronomical Technologies and Instrumentation

Francesco Pepe, University of Geneva, Switzerland
EPRVs - From the discovery of 51 Peg b to the characterisation of Earth-like exoplanets

HONG Xiaoyu, Shanghai Astronomical Observatory, Chinese Academy of Sciences, China (Keynote)
The earth-moon space VLBI experiment

WEI Jianyan, National Astronomical Observatories, Chinese Academy of Sciences, China (Keynote)
The status of Chinese-Frence SVOM mission and its prelimary science

LI Chuan, Nanjing University, China (Keynote)
LAgrange-V Solar Observatory (LAVSO): A deep-space mission for solar physics and space weather

Peter Wheatley, University of Warwick, UK
Space-like photometry from the ground with the Next-Generation Transit Survey (NGTS)

KONG Xu, University of Science and Technology of China
Wide Field Survey Telescope (WFST): Project overview and early science highlights

CHEN Yong, Institute of High Energy Physics, Chinese Academy of Sciences, China
Development and application of Nickel-Based Wolter-I X-Ray focusing mirrors in China's space astronomy

DOU Jiangpei, Nanjing Institute of Astronomical Optics & Technology, Chinese Academy of Sciences
Introduction of Cool Planets Imaging Coronagraph (CPI-C) on Chinese Space-Station Survey Telescope (CSST)

Marcos Reyes García-Talavera, Instituto de Astrofísica de Canarias, Spain
Adaptive optics program of the 10 meter telescope GTC

GUO Jianhua, Purple Mountain Observatory, Chinese Academy of Sciences, China
Very large area gamma-ray space telescope

GUO Youming, Institute of Optics and Electronics, Chinese Academy of Sciences, China
Progress on sodium laser guide star adaptive optics in national key laboratory of adaptive optics

HAO Lei, Shanghai Astronomical Observatory, Chinese Academy of Sciences, China

JIANG Weichun, Institute of High Energy Physics, Chinese Academy of Sciences, China
Optics for hard x-ray and gamma-ray astronomy

LING Zhixing, National Astronomical Observatories, Chinese Academy of Sciences
Einstein probe: A space observatory to explore the dynamic X-ray universe
Luzma Maria, Instituto de Astrofísica de Canarias, Spain
Status of the adaptive optics system for the European solar telescope: From SCAO PDR to MCAO development

LIU Bin, National Astronomical Observatories, Chinese Academy of Sciences, China
The FAST Phase II upgrade project: Expanding the horizon of the world's largest single-dish radio telescope

LIU Hongbang, Guangxi University, China
SU Yang, Purple Mountain Observatory, Chinese Academy of Sciences, China
TBD

WU Libo, University of Science and Technology of China, China
New mission concept: a high-precision MeV gamma-ray telescope using TPC technology with micromegas readout

YAO Kainan, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, China

TBD
YUE Chuan, Purple Mountain Observatory, Chinese Academy of Sciences, China
Highlight of 10 years of observations with the DAMPE space mission

T18. Biomedical Photonics

Ammasi Periasamy, University of Virginia, USA (Keynote)
Metabolic mapping of cancer cells and tissue: FLIM-FRET microscopy

WANG Kai, Institute of Neuroscience, Chinese Academy of Sciences, China (Keynote)
Imaging the brain at higher spatial and temporal resolutions

HAN Bing, Shanghai Jiao Tong University, China
Smart guidewire robots for targeted intervention in fragile and tortuous cerebral microvessels
LI Dongyu, Huazhong University of Science and Technology, China
Physics-assisted light-field microscopy enables high temporal-spatial resolution 3D observation

LI Jiao, Tianjin University, China
High-definition and high-fidelity optoacoustic functional imaging in vivo

Igor Meglinski, Aston University, United Kingdom
Orbital angular momentum in biomedical photonics: Phase memory, chirality, and light–tissue intera

QI Ji, Nanjing University, China
Surgical polarization endoscopy

Kanwarpal Singh, McMaster University, Canada
Endoscopic optical coherence tomograhy and its applications

LEI Su, Queen Mary University of London, United Kingdom
Single multimode optical fibre imaging and sensing

SU Qian, University of Technology Sydney, Australia / Australian Institute of Health and Medical Research
The interplay of physical, chemical and biological dynamics in living cells
TAN Yizhou, Chinese PLA General Hospital, China
Multimodal photoacoustic imaging for pathological mechanisms and non-invasive diagnosis of sterile arthritis

Oleg S. Vasyutinskii, Ioffe Physical-Technical Institute, Russian Academy of Sciences, Russia
Laser spectroscopy of biomolecules and living cells with high space and temporal resolution

WANG Hao, Tianjin University, China
TBD
WEN Zhong, Zhejiang University, China
In vivo in situ microscopic imaging based on multimode fibers

WU Jianglai, Beijing Institute for Brain Disorders, China
Curved light sheet microscopy enables centimetre-scale, large-volume imaging of cleared tissues

YANG Sihua, South China Normal University, China
Polarization-domain photoacoustic lock-in microscopy

YANG Jiang, Sun Yat-sen University, China
Multiscale imaging for diagnosis and guided-therapy of diseases

YU Miao, Wuhan University, China
Illuminating the "Dark Matter" of the nuclear pore in living cells

T19. Energy Photonics

CHEN Yonghua, Nanjing Tech University, China
Fully thermally deposited perovskite optoelectronic devices

FANG Junfeng, East China Normal University, China
Study on the surface and interface control and device performance of inverted perovskite solar cells

GE Ziyi, Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, China

TBD
LI Gang, The Hong Kong Polytechnic University, China

TBD
LIU Mingzhen, University of Electronic Science and Technology of China, China

TBD
LIU Shengzhong, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, China
Large-area scaleup preparation for perovskite solar cell production

PENG Qiang, Sichuan University, China
High performance organic solar cell materials and devices

Alexey Tarasov, Lomonosov Moscow State University, Russia
Hybrid perovskite materials for solar cells and X-ray imaging at the faculty of Materials Science of Moscow State University

WANG Tao, Wuhan University of Technology, China
Fibrillization of organic semiconductors for high performance photovoltaics

XU Baomin, Southern University of Science and Technology, China
Design and fabrication of key materials towards the commercialization of perovskite solar cells

XU Jixian, University of Science and Technology of China, China

TBD
YU Zhenhua, Wuhan University, China
Research on key materials and device structures of perovskite solar cells

ZHANG Deyi, Wandu Light Energy, China
Triple mesoscopic structure enables all-wet process production of low-cost PV modules

ZHANG Jian, Guilin University of Electronic Technology, China
Efficient and stable carbon-based printable mesoscopic perovskite solar cells

ZHANG Lijun, Jilin University, China
Atomic-scale insights into surface passivation strategies for perovskite solar cells

ZHAO Qing, Peking University, China
Interfacial stability study of perovskite solar cells

ZHAO Yixin, Shanghai Jiao Tong University, China
Highly efficient and stable large-area perovskite photovoltaics

ZHOU Huanping, Peking University, China

TBD
ZOU Yingping, Central South University, China

TBD

Transportation Guide

CNCC Nearest Subway Station: Olympic Park Station (Line 8 / Line 15), Exit A / E

1. From Beijing Capital International Airport (PEK)

Public Transportation
* Take Airport Express → transfer to Line 10 at Sanyuanqiao → transfer to Line 8 at Beitucheng → alight at Olympic Park Station

* Duration: about 60 minutes

Taxi
* Distance: about 26 km

* Duration: about 40 minutes

2. From Beijing Daxing International Airport (PKX)

Public Transportation

* Take Daxing Airport Express → transfer to Line 10 at Caoqiao → transfer to Line 8 at Beitucheng → alight at Olympic Park Station

* Duration: about 80 minutes

Taxi

* Distance: about 65 km

* Duration: about 70 minutes

3. From Beijing South Railway Station

Public Transportation

* Take Line 4 → transfer to Line 2 at Xizhimen → transfer to Line 8 at Guloudajie → alight at Olympic Park Station

* Duration: about 50–60 minutes

Taxi

* Distance: about 20 km

* Duration: about 45 minutes

4. From Beijing Railway Station

Public Transportation

* Take Line 2 → transfer to Line 8 at Guloudajie → alight at Olympic Park Station

* Duration: about 45 minutes

Taxi

* Distance: about 13 km

* Duration: about 35 minutes

5. From Beijing West Railway Station

Public Transportation

* Take Line 9 → transfer to Line 6 at Baishiqiaonan → transfer to Line 8 at Nanluoguxiang → alight at Olympic Park Station

* Duration: about 55 minutes

Taxi

* Distance: about 17 km

* Duration: about 40 minutes

Notes

* Please allow an extra 30 minutes for travel during rush hours.

* Public transportation is highly recommended as parking spaces near the venue are limited.

Day 1: Registration, Short Courses, Young Scientist Forum
Day 2: Opening Ceremony, Plenary Session, Topical Sessions, Photonics Expo
Day 3: Topical Sessions, Photonics Expo

The Palace Museum

The Palace Museum was commissioned by the third Emperor of the Ming Dynasty, Emperor Yong Le. The palace was built between 1406 and 1420, but was burnt down, rebuilt, sacked and renovated countless times, so most of the architecture you can see today dates from the 1700's and on wards. The Forbidden City was the seat of Imperial power for 500 years, and is now a major tourist attraction in China. The total area of the complex is 183 acres, so it takes quite a while to walk through, especially if you want to have a close look at everything. All together there are 9,999 1/2 rooms in the Museum, not all of which can be visited.

The Temple of Heaven

The Temple of Heaven was initially built in the eighteenth year of the Ming Dynasty (in 1420). Situated in the southern part of the city, it covers an area of 273 hectares. It is a place where Emperors from both the Ming and Qing Dynasties' traveled to worship and to pray for good harvest. The northern part of the Temple is round in contrast to the southern part, which is square, implying that "the sky is round and the earth is square" to symbolize both heaven and earth. There are a lot of prominent places in this park such as the Circular Mound Altar, the Imperial Vault of Heaven, the Long Corridor, the Echo Wall, the Seven-Star Stone and many other areas of historic interest and panoramic beauty. In 1998, it was included in the "List of World Heritages" by the United Nation's Educational, Scientific and Cultural Organization.

The Great Wall at Badaling

The Great Wall at Badaling is located in Yanqing County, which is about 60 kilometers northwest of Beijing. It is widely known as the most representative section of the "Great Wall" from the Ming Dynasty. Well laid out with huge uniform bricks, the wall was built on the ridges of the mountains. Various beacon towers were erected at strategic points along the wall. Badaling is a place of strategic importance and its wall is both tall and sturdy. With its many beacon towers, the wall looks magnificent and best epitomizes the magnificence of traditional Chinese architecture.

The Summer Palace

The history of Summer Palace extends as far back as 800 years. In 115 B.C, when the Jin Dynasty made Beijing--then called Yanjing-- its capital, it built an imperial palace that was then referred to as the Golden Hill Palace. The structure still remains on the present site of what residents and tourists both recognize as the Summer Palace of Beijing.

Introduction to quantum dot infrared photodetector technology

Fundamentals of fiber laser design

Automated design of metasurfaces

For Visa Application, please fill in the form below with the invitee's information and send it to qujie@csoe.org.cn after registration.
Invitation Letter for VISA application

AOPC 2025:

https://b2b.csoe.org.cn/meeting/AOPC2025.html

AOPC 2024:

https://b2b.csoe.org.cn/meeting/AOPC2024.html

AOPC 2023:

https://b2b.csoe.org.cn/meeting/AOPC2023.html

AOPC 2026:
T1-T6: Mrs. QU, qujie@csoe.org.cn, (+86)–22-29278358
T7-T10: Mr. DONG, dongmusen@csoe.org.cn, (+86)-22-86558358
T11-T5: Mr. NING, ningjiaming@csoe.org.cn, (+86)-10-83326359
T16-T19: Mrs. Zhang, zhangjie@csoe.org.cn, (+86)-22-86558358

PHOTONICS EXPO 2026:
Mr. GUO, (+86)-18710157604

Mr. QI，(+86)-18610155222

Mr. LV，(+86)-13810226340

Mr. SUO，(+86)-15122063125，sonik@csoe.org.cn

Mr. ZHANG，(+86)-15701689917，zhangmuan@csoe.org.cn
Mr. Chai, (+86)-15958108449