Registration Link:https://b2b.csoe.org.cn/registration/WPC2026_cn.html
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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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 deadline: 30 April 2026
Abstract template:
Abstract-Template-for-Oral-and-Poster.docx
Day 1: Registration, Short Courses, Young Scientist Forum
Day 2: Opening Ceremony, Plenary Session, Topical Sessions, Photonics Expo
Day 3: Topical Sessions, Photonics Expo
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
Conference Tracks:
S1A. Novel Laser Materials, Devices, and Technologies
S1B. Next-Generation Industrial Lasers: Intelligence, Modularity, and Human–Machine Collaboration
S1C. Challenges in Miniaturization and Reliability of High-Power Laser Systems
S1D. Laser Additive Manufacturing of Functional Materials for Energy and Biomedical Applications
S1E. Solid-State LiDAR for Autonomous Driving and Robotic Perception
S1F. Multimodal Fusion of LiDAR with Vision and Millimeter-Wave Radar
S1G. Recent Advances in Laser Fusion Technology and Facilities
S2A. Materials and Architectural Innovations for Low-Power, Miniaturized Infrared Sensors
S2B. Multispectral Infrared Sensing Systems for Low-Altitude Intelligent Connectivity
S2C. Infrared Systems for Industrial Inspection
S2D. Infrared Systems for Medical Diagnosis
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
S4A. Latest Advances in Miniature Spectrometers
S4B. Portable and Wearable Spectral Sensors for Point-of-Care Diagnostics
S4C. Spectral Analysis in Food Safety Monitoring
S4D. Extreme Ultraviolet and X-ray Spectroscopy in Advanced Semiconductor Metrology
S4E. Spectroscopic Diagnostics under Extreme Conditions: From Space to Fusion Devices
S5A. Tabletop Particle and Radiation Sources Driven by Ultrafast Lasers
S5B. Probing Ultrafast Dynamics in Quantum Materials and Chemical Reactions
S5C. High-Repetition-Rate Ultrafast Systems in Industrial and Biological Imaging
S5D. Exploring the Precision Limits and Novel Methods in Ultrafast Optical Measurements
S6A. Novel Architectures and Strategies for Optical Computing Based on Micro- and Nanophotonics
S6B. Flat Optics Reshaping Conventional Imaging Systems
S6C. Advances in Tunable Micro- and Nano-Optical Devices
S6D. Pathways to Commercialization of Micro- and Nanophotonics in Consumer Electronics and AR/VR
S7A. Applications of Multi-Core and Few-Mode Fibers in Space-Division Multiplexed Communications
S7B. Distributed Fiber Sensing for Geohazard Early Warning and Infrastructure Monitoring
S7C. Reliability of Fiber-Optic Devices in Extreme Environments (Space, Deep Sea, Nuclear Facilities)
S7D. Convergence of Fiber-Optic Technologies with Quantum Networks and Biomedicine
S8A. Diversification of Photonic Integration Platforms: Silicon, Lithium Niobate, III-V, and Emerging Materials
S8B. Novel Approaches to Heterogeneous and Heterointegrated Photonics
S8C. From Chip to System: Testing and Packaging Challenges in Optoelectronic Integration
S8D. Building an Integrated Ecosystem for Co-Packaged Optics (CPO)
S8E. High-Efficiency Photonic Integrated Circuits for Data Centers and AI Accelerators
S9A. Performance Metrics and Standardization of Practical Quantum Light Sources and Detectors
S9B. Integrated Quantum Photonics: From Proof-of-Principle to System Implementation
S9C. Quantum-Enhanced Sensing: From Gravitational Wave Detection to Bioimaging
S9D. Vision and Technical Roadmap for a Space–Ground Integrated Quantum Communication Network
S10A. How AI Is Transforming the Design, Control, and Application of Photonic Devices
S10B. Optical Computing Architectures for Edge AI and Low-Latency Inference
S10C. Algorithm–Hardware Co-Design Paradigms in Intelligent Photonic Systems
S10D. Convergence Trends of Edge Intelligence and Photonic Sensing
S11A. Atomic-Level Precision in Advanced Optical Manufacturing
S11B. Design Freedom and Fabrication Challenges of Freeform and Non-Traditional Optical Elements
S11C. Digital and Intelligent Transformation of Optical Manufacturing
S11D. Lightweighting, Reliability, and On-Orbit Maintenance of Space Optical Systems
S11E. Advanced Optical Design in AR/VR and Automotive Applications
S12A. Photodetection Technologies Based on Novel 2D and Low-Dimensional Materials
S12B. Development and Imaging Applications of Hyperspectral, High-Sensitivity Detectors
S12C. Advances and Applications in Polarimetric and Multidimensional Detection
S12D. Calibration Techniques and Expanded Applications of Photodetectors
S12E. Miniaturization, Low Power Consumption, and Self-Powered Designs for Sensing Systems
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 Photonic Detection Methods for Extreme or Confined Environments (High Temperature, Intense Radiation, Enclosed Spaces)
S13D. Multimodal Optical Perception Fusion: From Industrial Quality Inspection to Environmental Understanding in Autonomous Driving
S14A. Co-Packaged Optics (CPO) and Linear-Drive Pluggable Optics (LPO) Reshaping Data Center Interconnects
S14B. Technology Competition and Synergy in 6G Fronthaul/Backhaul Optical Networks
S14C. Advances in Free-Space Optical Communications for Space–Air Information Networks
S14D. Green Optical Networks: Energy Efficiency, Materials, and Life-Cycle Assessment
S15A. Computational Imaging: A New Paradigm Beyond Traditional Optical Limits
S15B. Intelligence and On-Chip Processing Trends in Imaging Sensors
S15C. Evolution of Imaging Systems for Autonomous Driving and Robotic Perception
S15D. Light Field and Event Cameras for Dynamic Scene Capture
S15E. Lightweight AR Glasses: Synergistic Innovation in Holographic Waveguides, Diffractive Waveguides, and Micro-LEDs
S16A. Synergistic Applications of LiDAR and Hyperspectral Remote Sensing in Air Quality and Carbon Emission Monitoring
S16B. Technical Challenges and Applications of Underwater Optical Communications and Sensing
S16C. Integrated Applications of Blue–Green Lasers in Oceanographic Sensing, Communications, and Submersible Navigation
S16D. Ocean Optical Remote Sensing for Ecosystem Health Monitoring, Harmful Algal Bloom Early Warning, and Blue Carbon Assessment
S17A. Optical Innovations and International Collaboration in Extremely Large Telescopes (ELTs)
S17B. Next-Generation Detector and Instrument Requirements for Space-Based Observatories
S17C. Advances in Adaptive Optics for Astronomical Observation and Space Object Tracking
S17D. Astronomical Optical Data Processing and Sharing in the Big Data Era
S18A. Frontiers in Label-Free, Non-Invasive 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
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
GUAN Song, National Key Laboratory of Electromagnetic Space Security
HAN Hongwei, Huazhong University of Science and Technology
HU Weida, National University of Defense Technology
LI Pingxue, Beijing University of Technology
LI Xue, Shanghai Institute of Technical Physics, CAS
LI Zhengqiang, Aerospace Information Research Institute, CAS
LIN Linhan, Tsinghua University
KONG Lingbao, Fudan University
TANG Aiwei, Beijing Jiaotong University
TIAN Zhen, Tianjin University
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
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 ApplicationsSession Chairs:
LI Xue, Shanghai Institute of Technical Physics, CAS
ZHANG Hai, 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
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
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
T7. Fiber Optics
Session Chairs:
DONG Yongkang, Harbin Institute of Technology
DONG Yi, Beijing Institute of Technology
WANG Yiping, Shenzhen University
JIN Long, Jinan University
MA Yunbin, Research Institute of National Oil and Gas Pipeline Group
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
T9. Quantum Optics
Session Chairs:
LU Chaoyang, University of Science and Technology of China
XU Kemi, Beijing Institute of Technology
T10. AI Photonics
Session Chairs:
CAO Liangcai, Tsinghua University
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
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
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
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
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
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
LIU Dong, Zhejiang University
T17. Astronomical Technologies and Instrumentation
Session Chairs:
GE Jian, Shanghai Astronomical Observatory, CAS
FAN Yizhong, Purple Mountain Observatory, CAS
T18. Biomedical Photonics
Session Chairs:
CHEN Liangyi, Peking University
QU Junle, Shenzhen University
FEI Peng, Huazhong University of Science and Technology
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 serves as a premier international platform that integrates academic exchange, industrial collaboration, and technology demonstration.
Bringing together leading scholars, experts, corporate representatives, and industry leaders from around the globe, the conference aims to explore cutting-edge advancements and future trends in optics and photonics technologies, fostering seamless collaboration among industry, academia, research institutions, and users.
Sponsor:
Chinese Society of Optical Engineering (CSOE)
Technical Co-sponsor:
SPIE
Organizers:
Chinese Society of Optical Engineering (CSOE)
PhotoniX
PhotoniX Life
PhotoniX Synergy
Co-Organizers:
Tsinghua University
Peking University
Beijing University of Posts and Telecommunications
Beijing Institute of Technology
Beijing University of Technology
Beijing Jiaotong University
Fujian Normal University
Zhejiang University
Nankai University
Shanghai Institute of Technical Physics, CAS
National Key Laboratory of Electromagnetic Space Security
Registration Link:https://b2b.csoe.org.cn/registration/WPC2026_en.html
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
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 2026:
Mrs. QU, qujie@csoe.org.cn, (86)-22-29278358
Mr. DONG, dongmusen@csoe.org.cn, (86)-22-86558358
Mr. NING, ningjiaming@csoe.org.cn, (86)-10-83326359
PHOTONICS EXPO 2026:
Mr. GUO, (86)-18710157604
Mr. QI,(86)-18610155222
Mr. LV,(86)-13810226340
