Contact us:
 
Topic1:CAO Kaixuan, caokaixuan@csoe.org.cn, 86-18301632607
Topic2:LIU Yan,liuyan@csoe.org.cn,86-22-58168510
Topic3:LIU Yan,liuyan@csoe.org.cn,86-22-58168510
Topic4:SUO Nike, sonik@csoe.org.cn, 86-22-58168515
Topic5:NING Jiaming, ningjiaming@csoe.org.cn, 86-10-83326359
Topic6:YANG Minghao, yangminghao@csoe.org.cn, 010-83678172
Topic7:LIU Yan,liuyan@csoe.org.cn,86-22-58168510
Topic8:ZHANG Jie,zhangjie@csoe.org.cn,86-22-58168510
Topic9:ZHU Liwei, zhuliwei@csoe.org.cn,010-83326131
Topic10:BAI Yu,by@csoe.org.cn,86-10-63726007
Topic11:ZHANG Shu,zhangshu@csoe.org.cn,86-22-58168542
Topic12:LIU Yan,liuyan@csoe.org.cn,86-22-58168510
Topic13:ZHANG Shu,zhangshu@csoe.org.cn,86-22-58168542
Topic14:YANG Minghao, yangminghao@csoe.org.cn, 010-83678172
Topic15:WANG Miao,miaowang@csoe.org.cn,86-10-83326131
Topic16:ZHANG Jie,zhangjie@csoe.org.cn,86-22-58168510
Topic17:LIU Xingwang, Liuxingwang@csoe.org.cn, 86-022-58168885
Topic18:LIU Xingwang, Liuxingwang@csoe.org.cn, 86-022-58168885
Topic19:SUO Nike, sonik@csoe.org.cn, 86-22-58168515

Conference Venue:
China National Convention Center (CNCC)
Address: No.7 Tianchen East Road, Chaoyang District, Beijing China
Tel: +86 10 6499 1899 / +86 10 8437 2008
 
会议地点:
国家会议中心
地址:北京市朝阳区天辰东路7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.
Venue-1
 
Venue-2
 
 

Registration
 
Registration for Chinese Attendee:
https://b2b.csoe.org.cn/registration/AOPC2025.html
 
Registration for Foreign Attendee:
https://b2b.csoe.org.cn/registration/AOPC2025_en.html

Registration fee for Chinese Attendee:
国内会议代表支付方式:
1. 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
 
2. 在线支付:
注册完成后,可跳转到在线支付页面,选择“支付宝”在线完成支付。
关于发票:
请自行在报名系统中上传汇款凭证,并申请开票;

Pay Registration fee for Chinese Attendee:

注册费AOPC2025en

 备注:会员价格仅限注册过中国光学工程学会的会员,且按时缴纳会费(会员在有效期内)的参会者享受。

Registration fee for Foreign Attendee:
650USD
 
Pay Registration fee for Foreign Attendee:
Payment Type(Please note your name and unit when you pay):
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

关于退款:
如需退款,请于6月3日前提出申请,后续不再接受申请。
 
 
Join CSOE Member:
欢迎加入学会会员:
httpsb2b.csoe.org.cnmemberinvite.phpuser=liuyan&goto=account
 
 
Download Notice in Chinese:
   会议通知和邀请函AOPC2025.pdf
 
 
 
 
SPIE Proceedings:


Abtract Submission:
 
Please submit an 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. Then, please submit a manuscript in English to SPIE Website.
 
Abstract submission link : https://b2b.csoe.org.cn/submission/aopc2025.html
Abstract submission deadline: 13 June 2025 (Last Round)
 
Download abstract template:
   Abstract Template 2025.doc

Download invited talks template:
TBC

Manuscript Submission: 

Manuscripts Submission Deadline: 25 July 2025

Manuscript guidelines and policies: Manuscript guidelines and policies

SPIE Manuscript Specifications:
   SPIE Manuscript Specifications_4 page papers.doc

Information for Submitting Authors:
   Information for Submitting Authors.docx
 
Manuscript submission links:

OAP101-Laser Technology and Applications
OAP103-Optical Sensing, Imaging Technology, and Applications
OAP108-Optical Devices and Integration
OAP109-Micro-Nano Optics
OAP110-Computational Imaging Technology
OAP111-Quantum Optics
OAP112-Electromagnetic Compatibility and Electromagnetic Environmental Effect
OAP113-AI in Optics and Photonics
OAP115-Biomedical Optics
OAP118-Astronomical Technologies and Instrumentation
OAP119-Optical Communications and Networks
OAP102-Infrared Technology and Applications

OAP104-Optical Spectroscopy and Applications

OAP105-Terahertz Technology and Applications

OAP106-Optical Design and Manufacturing

OAP107-Optoelectronics Testing and Measurement

OAP114-Display and Optical Storage

OAP116-Atmospheric and Environmental Optics

OAP117-Marine and Polar Optical Detection Technology
 
 

Schedule
 
24 June 2025                                               
10:00-17:00 Registration (Level 1, Exhibition Hall, CNCC. Enter from Door E2)
(注册处在国家会议中心展区一层序厅,从E2门进入)
13:30-17:30 Youth Development Forum (401, 403, Level 4, CNCC)

25 June 2025 
09:00-09:30 Opening Ceremony (Plenary Hall B L4, Level 4, CNCC)
09:30-12:00 Plenary Presentation (Plenary Hall B L4, Level 4, CNCC)
13:30-17:30 Plenary Presentation (301A+B, Level 3, CNCC)
13:30-17:30 Conferences Presentation (Level 2, Level 3, Level 4, CNCC)
13:30-17:30 Youth Development Forum (401, Level 4, CNCC)
13:30-17:30 Matchmaking Symposium (403, Level 4, CNCC)
09:00-17:00 Exhibition, Job fair

26 June 2025                                                      
08:30-12:00 Plenary Presentation and Conferences Presentation (Level 2, Level 3, Level 4, CNCC)
13:30-17:30 Conferences Presentation (Level 2, Level 3, Level 4, CNCC)
08:30-17:00 Exhibition, Job fair

27 June 2025                                                      
08:30-17:00 Exhibition, Job fair
 
Download Whole Schedule
   Schedule.pdf

Download Technical Program

Download Conference Contribution


Topic1: Laser Technology and Applications
Advanced laser materials and laser technologies
Advanced laser processing and manufacturing
Laser transmission and communication
Laser field control and beam control
 
Topic2: Infrared Technology and Applications
Novel infrared and photo-electronic materials and manufacturing
Advances in shortwave, mid-wave and long-wave infrared detectors and FPAs
Novel infrared detectors and technologies
Controlling and integration of refrigerator
Infrared devices and microsystem
Infrared optical materials and manufacturing
Advanced infrared optical system
Infrared detection and recognition
Novel combination of active and passive optical sensing
Space remote sensing and spectral imaging
Novel imaging reconnaissance and early warning
Low-light-level devices and applications
Information acquisition and signal processing technologies
Testing and evaluation of infrared imaging and detecting systems
Industrial, public security, mechanical and other applications
Machine vision and internet of things and other applications
Machine vision and automatic driving and other applications
Other related technologies
 
Topic3: Optical Sensing and Imaging Technology and Applications
Ultra-violet, visible and infrared sensing and imaging
Millimeter, sub-millimeter, and far-infrared detectors and instrumentation
Novel lidar technology
Environment characteristics of target and atmospheric transmission
Ocean optics and detection technology
Combination of active and passive optical sensing
Machine vision, automatic target detection, image processing & analysis
Other related technologies
 
Topic4: Optical Spectroscopy and Applications
Laser induced breakdown spectroscopy and related technologies
Atomic spectroscopy and mass spectrometry
Raman spectroscopy and fluorescence spectroscopy
Photoacoustic spectroscopy and TDLAS technology
Infrared and terahertz spectroscopy
Ultra-fast and transient spectroscopy
Environmental monitoring
Industrial measurement
Other related technology and applications
 
Topic5: THz Technology and Applications
Terahertz radiation technology
Terahertz detection and detection technology
Terahertz transmission technology
Terahertz regulation technology
Terahertz interaction with matter
Terahertz wireless communication
Terahertz imaging
Terahertz spectroscopy
Terahertz interdisciplinary research
Other related technologies
 
Topic6: Optical Design and Manufacturing
Current developments in lens design
Novel optical systems, methods, and applications
Polymer optics and molded glass optics: design, fabrication, and materials
Optical Modeling and Performance Predictions
Reflection, scattering, and diffraction from surfaces
Laser Beam Shaping
Nonimaging optics: efficient design for illumination and solar concentration
Ultra-precision cutting technology
Abrasive machining process
Optical and laser machining technology
Assist ultra-precision machining approaches
Measurement and characterization of complex geometries
Measurement of surface integrity and defects
Inspection of subsurface damage and material property
Sensors and uncertainties
Ultra-precision system integration and equipment development
Frontiers in ultra-precision and green manufacturing technology
Other related technologies
 
Topic7: Optoelectronics Testing and Measurement
Advanced optoelectronic manufacturing and testing
Ambient optoelectronic measurements
Space optoelectronic measurements
Biomedical optoelectronic measurements
Optoelectronic detection of integrated circuits
Dual-purpose optoelectronic test measurement
Detection technology in big science installations
 
Topic8: Optical Devices and Integration
Semiconductor lasers
Light detection and devices
Silicon photonics
Photonic integrated circuit
Hybrid integration
Novel materials for photonics
Chip fabrication technology and platform
Optical package and test
Other related technologies
 
Topic9: Micro-Nano Optics
Nanostructures, nanomaterials, and their fundamental properties
Optoelectronic materials and devices
Micro/nano manufacturing and metrology
Plasmonics and meta-materials
Applications of nano photonics
Other related technologies
 
Topic10: Computational Imaging
Basic theory of computational imaging
Scattering imaging and Non-Line-of-Sight imaging
3D imaging
Polarimetry and polarization imaging
Holography and phase imaging
Multi-spectrum imaging and computational spectral imaging
Single-pixel imaging and single-photon imaging
Micro/nano optics and computational imaging
Biomedical and Computational Imaging
Artificial Intelligence and Computational Imaging
Frontier problems in computational imaging
 
Topic11: Quantum Optics
Practical and long-distance quantum key distribution
Quantum memory and quantum repeaters
Quantum experiments in space, quantum photonics
Quantum computation with photons and atoms
Quantum metrology, quantum state engineering
Other related topics
 
Topic12: Electromagnetic Compatibility and Electromagnetic Environmental Effect
Basic theory of EMC
EMC management  
EMC measurements
Electromagnetic environment  
Electromagnetic interference  
High power electromagnetics  
Spectrum engineering  
Low frequency EMC  
Computational electromagnetics  
Signal and power integrity  
Electromagnetic biological effects
EMC applications
EMC standards and rules  
Electromagnetic safety  
EMC+AI +Big data
Other related technologies
 
Topic13: AI in Optics and Photonics
Artificial intelligence based optical imaging, sensing, measurement, and display
Computational imaging with deep neural networks
Deep learning enabled advanced bio-imaging and bio-photonics
Deep learning enabled quantum optics
Optical system design by machine learning
Deep learning based optical computing and signal processing
Photonic neuromorphic computing
Optical neural networks
Integrated photonics for artificial neural computing
Theories and technologies of artificial intelligence and deep learning
Computational efficiency aspects of training deep learning networks
Real-time operation of deep learning networks for optics and photonics
Real-time hardware implementation of deep learning processing on embedded processors
 
Topic14: Display and Optical Storage
Laser display
TFT-LCD
OLED
Mini LED
Micro-LED
Electronic paper display
3D displays
Optical memories for big data storage
Holographic storage
Optical components
Image process
Imaging technologies and devices
Image quality and human vision
Emerging techniques
VR/AR/MR input devices
Touch and interactive display
Tracking and sensing
Near-eye displays
Vehicle display
VR/AR/MR computer graphics
Distributed VR/AR/MR
 
Topic15: Biomedical Optics
Biomedical optics components, products, instrumentation, and applications
Molecular imaging
Therapeutic lasers
Nano/biophotonics
Biosensors
Spectroscopic/microscopic imaging
Other related technologies
 
Topic16: Atmospheric and Environmental Optics
Atmospheric optical characteristics
Atmospheric optical remote sensing
Target detection technology in the atmosphere
High-resolution imaging technology in turbulent atmosphere
Atmospheric transmission and correction technology of laser emission
Laser beam quality control and coherent synthesis technology
Other related technologies
 
Topic17: Marine and Polar Optical Detection Technology
Study of optical properties of water bodies
Marine optical remote sensing technology
Underwater optical detection technology
Marine optical communication technology
Underwater navigation technology
Polar optical detection technology
Other related technologies
 
Topic18: Astronomical Technologies and Instrumentation
Optical and Near IR telescopes and instrumentation
UV, X-ray and Gamma ray telescopes and instrumentation
Radio, Millimeter, submillimeter and far-infrared techniques, and instrumentation
AO systems and techniques
Multi-messenger instrumentation and techniques
Observatory operations: software and data pipeline system
 
Topic19: Optical Communications and Networks
High speed optical transmission technology
Optical communication Integrated Circuit
Analysis and compensation techniques for atmospheric/cross media/underwater channels
Visible Light Communications
 

Sponsor:
Chinese Society for Optical Engineering (CSOE), China
 
Technical Co-sponsor:
SPIE, USA
 
Local Cooperating Organizations:
Tsinghua University, China
University of Electronic Science and Technology of China, China
Nanjing University of Science and Technology, China
North University of China, China
Beijing Institute of Technology, China
Beihang University, China
Fujian Normal Universtiy, China
Shanghai Institute of Technical Physics, CAS, China
National Key Laboratory of Science and Technology on Test Physics and Numerical Mathematics, China
Science and Technology on Low-light-level Night Vision Laboratory, China
National Key Laboratory of Scattering and Radiation, China
Aviation Key Laboratory of Science and Technology on Infrared Detector, China
Jiang Huai Advanced Technolgy Center, China
Night Vision Technology Professional Group of NORINCO Group Science and Technology Committee

Chairs:
ZHANG Guangjun (Chinese Academy of Engineering, China)
LV Yueguang (Chinese Academy of Engineering, China)
Kent B. Rochford (SPIE, USA)

Excecutive Chair:
CAO Liangcai (Tsinghua University, China)

Laser Conference:
Chairs:
ZHOU Pu (National University of Defense Technology, China)
SUI Xiubao (Nanjing University of Science and Technology, China)
ZENG Yong (Beijing University of Technology, China)

Information Conference:
Chairs:
TAN Xiaodi (Fujian Normal University, China)
ZUO Chao (Nanjing University of Science and Technology, China)
WANG Xingjun (Peking University, China)

Optics Conference:
Chairs:
ZHANG Dawei (University of Shanghai for Science and Technology, China)
YANG Zongyin (Zhejiang University, China)
ZHANG Zhihui (The Hong Kong Polytechnic University, China)

Photonics Conference:
Chairs:
XU Kemi (Beijing Institute of Technology, China)
ZHANG Han (Shenzhen University, China)
XI Peng (Peking University, China)

Topic1: Laser Technology and Applications
Chairs:
ZHOU Pu, National University of Defense Technology
ZENG Yong, North China University of Technology
S.A. Babin, Novosibirsk State University, RUS
 
Topic2: Infrared Technology and Applications 
Chairs:
LI Xue, Shanghai Institute of Technical Physics, CAS
SUI Xiubao, Nanjing University of Science and Technology
TANG Xin, Beijing Institute of Technology
LIU Ming, The 11 institute of CETC
 
Topic3: Optical Sensing and Imaging Technology and Applications
Chair:
JIANG Yadong, University of Electronic Science and Technology of China
Co-chairs:
WANG Jun, University of Electronic Science and Technology of China
MAO Hongxia, Beijing Institute of Enviroment Characteristcs

Topic4: Optical Spectroscopy and Applications
Chairs:
WANG Zhe, Tsinghua University
YANG Zongyin, Zhejiang University
 
Topic5: THz Technology and Applications 
Chairs:
ZHANG Yaxin, University of Electronic Science and Technology of China
ZHU Yiming, University of Shanghai for Science and Technology
 
Topic6: Optical Design and Manufacturing 
Chairs:
KONG Lingbao,Fudan University
ZHANG Dawei,University of Shanghai for Science and Technology
Xichun Luo, University of Strathclyde, UK
Co-chairs:
FENG Zexin, Beijing Institute Of Technology
CAO Zhongchen, Tianjin University
 
Topic8: Optoelectronic Devices and Integration 
Chairs:
ZHOU Linjie, Shanghai Jiao Tong University
GUO Jin, CUMEC
LI Ming, Institute of Semiconductors, Chinese Academy of Sciences
Program Committee:
CAI Xinlun, Sun Yat-sen University
SHI Yaocheng, Zhejiang University
SONG Junfeng, Jilin University
SUN Xiankai, The Chinese University of Hong Kong
TIAN Yonghui, Lanzhou University
WANG Linghua, Fuzhou University
XIAO Xi, National Information Optoelectronics Innovation Center
YANG Fenghe, Zhangjiang Laboratory
YU Yu, Huazhong University of Science and Technology
YUN Binfeng, Southeast University
 
Topic9: Nano Photonics
Chairs:
Qiu Min Westlake University 
Co-chairs:
Li Tao Nanjing University Jiang Weixiang Southeast University
 
Topic10: Computing Imaging 
Chairs:
Shao Xiaopeng,Xi'an Institute of Optics and Precision Mechanics of CAS
Tomáš Čižmár,Friedrich Schiller University
Co-chairs:
Wang Qianqian,Beijing Institute of Technology
Zhang Zonghua,Hebei University of Technology
Zuo Chao,Nanjing University of Science and Technology
 
Topic11: Quantum Optics
Chairs:
LU Chaoyang, University of Science and Technology of China
XU Kemi, Beijing Institute of Technology
 
Topic13: AI in Optics and Photonics 
Chairs:
WANG Xingjun, Peking University
CHEN Hongwei, Tsinghua University
Co-Chair:
Ya Sha Yi, University of Michigan, USA
 
Topic14: Display and Optical Storage 
Chairs:
WANG Qionghua, Beijing University of Aeronautics and Astronautics
TAN Xiaodi, Fujian Normal University
Co-chairs:
LIU Juan, Beijing Institute of Technology
TANG Aiwei, Beijing Jiaotong University
 
Topic15: Biomedical Optics 
Chairs:
FEI Peng, Huazhong University of Science and Technology
ZHANG Xiaodong, Tianjin University
ZHANG Han, Shenzhen University
XI Peng, Peking University

Topic16: Atmospheric and Environmental Optics 
Chairs:
LIU Jianguo, Hefei Institutes of Physical Science, Chinese Academy of Sciences
XIAO Yunfeng, Peking University
LIU Dong, Zhejiang University
Program Committee:
LIU Dong, Hefei Institutes of Physical Science, Chinese Academy of Sciences
LOU Shengrong, University of Shanghai for Science and Technology
MA Weiguang, Shanxi University
MEI Liang, Dalian University of Technology
HU Qihou, Hefei Institutes of Physical Science, Chinese Academy of Sciences
HU Renzhi, Hefei Institutes of Physical Science, Chinese Academy of Sciences
 

Topic17: Marine and Polar Optical Detection Technology
Chairs:
Wu Guojun,Xi'an Institute of Optics and Precision Mechanics of CAS

Topic18: Astronomical Technologies and Instrumentation
Chairs:
GE Jian, Shanghai Astronomical Observatory, Chinese Academy of Sciences, USA
Co-Chairs:
FENG Hua, The Institute of High Energy Physics of the Chinese Academy of Sciences, China
Quentin Parker, The University of Hongkong, Australia
Program Committee:
WANG Ji, The Ohio State University, China
CHANG Liang, Yunnan Observatories, Chinese Academy of Sciences, China
Robert Wittenmyer, University of Southern Queensland, Australia
LOU Zheng, Purple Mountain Observatory, Chinese Academy of Sciences, China
DUAN Ran, National Astronomical Observatory, Chinese Academy of Sciences, China
LI Zhengyang, Nanjing Institute of Astronomical Optics and Technology, Chinese Academy of Sciences, China

Topic19: Optical Communication and Networks
Chairs:
Wang Wei, Xi'an Institute of Optics and Precision Mechanics of CAS
Yu Siyuan, Harbin Institute of Technology
Yan ShuangYi, University of Bristol, UK
 
 
 


Welcome to AOPC2025
World Photonics Conference 2025 will be held in Beijing in 24 to 27 June 2025. World Photonics Conference 2025 includes 14th Applied Optics and Photonics China (AOPC 2025) and 16th Photonics China Expo. Participate in the conference, you will see the latest researches and developments in the field of optics and photonics technologies and applications. On behalf of the organizing committee, we warmly invite optics and photonics scientists, engineers, technicians, enterprisers, graduate students and people simply interested in the technique to attend this unique and innovative conference.
Chairs
General Chairs
ZHANG Guangjun
(Chinese Academy of Engineering, China)
LV Yueguang
(Chinese Academy of Engineering, China)
Dr. Kent B. Rochford
(SPIE, USA)
Excecutive Chair
CAO Liangcai
(Tsinghua University, China)
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)
 
贵宾楼
 
 
 
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座
 
亚运村

 
 
Hotel Booking for Chinese  attendee (in Chinese):
北辰亚运村宾馆A座    ¥500元/间 含早餐;
北辰亚运村宾馆BC座    ¥460元/间 含早餐;
北辰汇园酒店公寓贵宾楼  ¥650元/间 含早餐;
 
预定方式:
酒店负责人:周斌 18611250221(微信同号)可加微信预定酒店。
预定时间:无特殊紧急情况每日 9:00—19:00 可打电话进行预订。
定金条款:客人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。
酒店位置:北京市朝阳区北四环中路8号
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 foreign attendee:
TBC
 

Supported Journals:

PhotoniX (SCI)
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)
Opto-Electronic Advances (SCI)
Spectroscopy and Spectral Analysis (SCI)
Journal of Innovative Optical Health Science (SCI)
Frontiers of Information Technology & Electronic Engineering (SCI)
Infrared and Laser Engineering (EI)
Acta Photonica Sinica (EI)
Journal of Semiconductors (EI)
International Journal of Extreme Manufacturing
Study on Optical Communications
Journal of Terahertz Science & Electronic Information Technology
Optical Communication Technology

Plenary Presentation

An Investigation of Material Property Changes in Compression Molding of PrecisionOptics
——Allen Yi, The Ohio State University, USA
 
Computational Three-dimensional Fluorescence Imaging for in vivo Bioapplications
——Osamu Matoba, Kobe University, Japan

Chip-Scale Silicon Photonic Systems: Multifunctional Microwave Photonic Radar and Microwave-Infrared Dual-Band Space-Terrestrial Transceiver
——YAO Jianping, University of Ottawa, Canada

From Einstein's curiosity to quantum computer engineering
——LU Chaoyang, University of Science and Technology of China, China

Huawei Technologies Co., Ltd, China
 

Venue-3
 
Venue-4
 

Transportation information (in Chinese):
交通信息:

1.从首都机场到国家会议中心线路

驾车线路
首都机场离国家会议中心全程约26.7公里,沿首都机场高速公路进入北四环,沿北四环中路辅路进入北辰西路,沿北辰西路进入大屯路,右转进入天辰东路到达终点。

乘车线路1
在首都机场乘坐359路在三元桥站下车,然后步行至三元桥站,乘坐地铁10号线在北土城站下,再换乘地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

乘车线路2
在首都机场乘坐359路在北皋站下车,换乘696路在惠新东桥西站下车,导运通110或379在洼里南口站下车,步行至国家会议中心。

2.从南苑机场到国家会议中心线路

驾车线路
南苑机场离国家会议中心全程约32.5公里,沿G104往大红门方向行驶,在马家楼桥右拐进入西二环,沿西二环进入德胜门外大街去往G6,沿G6从龙翔路口离开去往北辰西路,沿北辰西路进入大屯路,右转进入天辰东路到达终点。

乘车线路1
在南苑机场乘坐501路在和义农场站下车,步行至和义农场站,换乘坐快速公交1线在前门站下车,步行至前门站,乘坐82路在国家体育馆站下车,步行至国家会议中心。

乘车线路2
在南苑机场乘坐南苑机场专线在西单(民航营业大厦)站下车,步行至西单站,乘坐地铁4号线在海淀黄庄站下车,换地铁10号线在北土城站下车,乘坐地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

3.从北京站到国家会议中心线路

驾车线路
北京站离国家会议中心全程约20.4公里,沿建国门内大街进入东二环,沿东二环朝机场高速公路行驶,进入四元桥去往北四环,沿北四环进入北四环中路辅路去往北辰西路去往大屯路,右转进入天辰东路到达终点.

乘车线路1
在北京站乘坐地铁2号线在雍和宫站下车,站内换乘地铁5号线在惠新西街南口站内下车,乘地铁10号线在北土城站下车,乘坐地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

乘车线路2
在北京站乘坐地铁2号线在建国门站下车,换乘地铁1号线在国贸站下车,站内换乘地铁10号线,乘地铁10号线在北土城站下车 乘坐地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

4.从北京西站到国家会议中心线路

驾车线路
北京西站离国家会议中心全程约17.5公里,沿莲花池东路进入西二环,沿西二环朝北三环方向行驶至德胜门北桥转向德胜门外大街去往G6,沿G6从龙翔路口离开去往北辰西路,沿北辰西路进入大屯路,右转进入天辰东路到达终点。

乘车线路1
在北京西站乘坐694路或特2在安贞西里站下车,步行至北土城站下车乘坐地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

乘车线路2
在北京西站乘坐83路在新闻中心站下车,步行至国家会议中心。

5.从北京南站到国家会议中心线路

驾车线路
北京南站离国家会议中心全程约22.1公里/58分钟,沿开阳路进入菜市口大街去往右安门东街,沿右安门东街进入西二环,沿西二环往德胜门外大街去往G6,沿G6从龙翔路口离开去往北辰西路,沿北辰西路进入大屯路,右转进入天辰东路到达终点。

乘车线路1
在北京南站乘坐地铁4号线在海淀黄庄站下车,乘坐地铁10号线在北土城站下车,乘坐地铁8号线在奥林匹克公园站下车(A1出口),步行至国家会议中心。

乘车线路2
在北京南站乘坐地铁4号线在平安里站下车(C出口),步行至平安里路口北站,乘坐83路在新闻中心站下车,步行至国家会议中心。
 
 

Invited Talks

Conf. 2 Infrared Device and Infrared Technology

1. Wide-area fine thermal infrared imaging technology and its applications——CHEN Fansheng, Shanghai Institute of Technical Physics, CAS, China  
2. Jong Soo Lee, Daegu Gyeongbuk Institute of Science and Technology, Korea  
3. Wen LEI, University of Western Australia, Australia  
4. ZHAO Jun, Kunming Institute of Physics, China  
5. WANG Peng, Shanghai Institute of Technical Physics, CAS, China  
6. Spaceborne hyper spectral imaging technology and industrial development——LIU Yinnian, Shanghai Institute of Technical Physics, CAS, China  
7. Parameter-Modulated NIR single-photon detection——LI Yongfu, Shandong University, China  
8. Research progresses on large format SWIR InGaAs/InP Geiger-mode avalanche photodiode arrays——MA Yingjie, Shanghai Institute of Technical Physics, CAS, China  
9. Infrared-to-visible upconversion imaging——MOU Ge, Beijing Institute of Technology, China 
10. InGaAs-based flexible short-wave infrared detector——DENG Zhen, Institute of Physics CAS, China  
11. ZHOU Yi, Shanghai Institute of Technical Physics, CAS, China  
12. Research on gas passive infrared imaging detection technology and intelligent algorithms——WANG Qi, Northeastern University, China  
13. Heterogeneous on-chip integrated chip architecture and imaging technology for low-dimensional materials——LIU Yanfei, Zhongxin Thermal Imaging Technology (Beijing) Co., Ltd., China  
14. ZHOU Feng,Beijing University of Posts and Telecommunications, China 
15. Time-frequency transfer and time-frequency measurement based on high-stability optical frequency combs——YU Song, Beijing University of Posts and Telecommunications, China  
16. Broadband Colloidal Infrared Quantum Dots: From Synthesis to Photodetector Applications——HU Huicheng, Beijing Institute of Technology Yangtze River Delta Research Institute, China  
17. Research on Organic Multispectral and Neuromorphic Imaging Arrays——WENG Kangkang, Beijing Institute of Technology, China 
18. SUN Hao, The 11th Research Institute of CETC, China  
19. SONG Qiang, Hunan University, China 

Conf. 3 Optical Sensing and Imaging Technology and Applications
 
1. Mingdong Dong, Universitas Arhusiensis, Denmark
2. Plane blackbody source by femtosecond laser brush manufacturing——HAO Xiaopeng, Tsinghua University, China
3. HSI-MSI Fusion and Disaster Monitoring Applications——GAO Lianru, Aerospace Information Research Institute, Chinese Academy of Sciences, China
4. Multiaperture multispectral super-resolution imaging——HUANG Feng, Fuzhou University, China
5. Heterogeneous on-chip integrated chip architecture and imaging technology for low-dimensional materials——LIU Yanfei, Zhongxin Thermal Imaging Technology (Beijing) Co., Ltd., China
6. Low-dimensional semiconductor photodetectors——LOU Zheng, Institute of Semiconductors, Chinese Academy of Sciences, China
7. Hafnium-based ferroelectric memory technology——LUO Qing, Institute of Microelectronics, Chinese Academy of Sciences, China
8. Application of large aperture infrared optical system for measurement of outer space targets——XIU Peng, Scattering Radiation Key Laboratory, China
9. Multi-mode fiber random lasing and its ultra-resolution information acquisition application——ZHANG Weili, University of Electronic Science and Technology of China, China
10. Multifunctional photoelectric detection devices based on reconfigurable transistors——ZHOU Yaoqiang, Beijing Institute of Technology, China
11. Wide-area fine thermal infrared imaging technology and its applications——Chen Fansheng, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China
12. Application of Micropore Optics in X/UV detection——DONG Lianqing, Beijing Institute of Space Mechanics and Electricity, China
13. Two-Dimensional Transition Metal Dichalcogenides for Advanced Optoelectronic Devices——ZENG Longhui, Zhengzhou University, China
14. Telluride-based semiconductors and devices——Meng You, Hunan University, China
15. Research on gas passive infrared imaging detection technology and intelligent algorithms——WANG Qi, Northeastern University, China
16. Qin Shuchao, Liaocheng University, China
17. Crystallization Dynamics Studies in Perovskite Photovoltaic——ZHANG Hengkai, The Chinese University of Hong Kong, Hong Kong, China
18. LIU Kuan, Hong Kong Polytechnic University, Hong Kong, China
19. Research on intelligent fusion imaging method with high spatial resolution hyperspectral——DIAN Renwei, Hunan University, China
20. ZHAO Huijie, Beihang University, China
21. Lead salts semiconductors-based Infrared Sensors——WANG Qisheng, Nanchang University, China
22. WU Yiming, Xiamen University, China
23. Weak signal infrared photoelectric detection——WANG Fang, Shanghai Institute of Technical Physics, Chinese Academy of Sciences, China
24. Contact Modulation in Perovskite Optoelectronic Device——REN Zhiwei, Hong Kong Polytechnic University, Hong Kong, China
25. Development of Bioinformatics Raman Intelligent Detection Methods——ZHOU Minjie, China Academy of Engineering Physics, China
 

Conf. 5 THz Technology and Applications

1. High-Power Strong-Field Terahertz Light Source and its Applications——WU Xiaojun, Beihang University, China 
2. Compact terahertz source based on semiconductor superlattice materials and its applications——TAN Zhiyong, Shanghai Institute of Microsystems and Information Technology,CAS, China 
3. Intense terahertz wave generation from air plasma induced by femtosecond laser——ZHANG Liangliang, Capital Normal University, China 
4. Fundamental Devices and Emerging Applications of Photonic-Electronic Converged Millimeter-wave & Terahertz Technology——LI Mo,University of Electronic Science and Technology of China, China 
5. Ultra-widely tunable high-power terahertz generation based on stimulated polariton scattering——ZHONG Kai,Tianjin University, China 
6. Terahertz Radar Target Fine Recognition Technology——YANG Qi,National University of Defense Technology, China 
7. Advancing Industrial Metrology through Terahertz Spectroscopy and Imaging: Principles, Applications, and Deployment Strategies——A. Kebie (Ph.D.),Luna Innovations Inc, USA 
8. Investigation of terahertz wave detection by Rydberg dark——HOU Lei,Xi’an University of Technology, China 
9. Research on Key Theories and Technologies for Ultra-wideband Terahertz Optoelectronic Integrated Communication——ZHANG Jiao,Purple Mountain Laboratories,, China
10. Terahertz rotational spectroscopy system and spectral analysis——DENG Xiaojiao,Tsinghua University, China 
11. Beam manipulation and communication technology of terahertz coding metasurface——ZENG Hongxin,University of Electronic Science and Technology of China, China
12. Low-noise frequency synthesis driven by compact Kerr combs——JIA Kunpeng, Nanjing University,China 
13. Research of terahertz on-chip integrated devices——XU Quan,Tianjin University, China
14. Enabling Next-Generation Communication and Sensing: Advances in Terahertz Channel Propagation and Environmental Perception——MA Jianjun,Beijing Institute of Technology, China 
15. A Sub-THz Wired Interconnect System Enabled by Dielectric-Engineered Polymer Composites——SHI Qiwu,Sichuan University, China 
16. TBD——LUO Yu,Nanjing University of Aeronautics and Astronautics, China 
17. Topological Semimetal based Broadband Electromagnetic Detection and Applications——WANG Lin,Shanghai Institute of Technical Physics of the Chinese Academy of Sciences, China

Conf. 6 Optical Design and Manufacturing
1. Optical System Design and Active Alignment Methods for Wide-Field Astronomical Telescopes——LI Zhengyang, Nanjing Institute of Astronomical Optics & Technology, China
2. SeeOD Optical Simulation and Aided Design Software——CHEN Qiao, Institute of Software Chinese Academy of Sciences, China
3. Varifocal Alvarez Lenses Actuated by Dielectric Elastomer——CHENG Yang, Beijing Institute of Technology, China
4. Multi-transparency glass optics 3D printing——HONG Zhihan, Shanghai Jiao Tong University, China
5. High-performance imaging with a nonimaging spatial information transfer lens——WU Rengmao, Zhejiang University, China
6. Micro and Metasurface Fabrication——LIU Xiaohua, The Chinese University of Hong Kong, China
7. Hot embossing technology for glass micro/nano optical components——YANG Gao, Shenzhen University, China
8. Abrasive machining process——YAO Peng, Shandong University, China
9. Study on Nanomaterials-enhanced Photocatalysis-assisted Polishing Process——CAO Zhongchen, Tianjin University, China
10. Robot Magnetorheological Finishing High Precision Optical Polishing Technology——CHENG Runmu, Changchun Institute of Optics,Fine Mechanicsand Physics of CAS, China
11. Research on Ultra-Precision Polishing Technology of Cordierite Optical Surface——JIANG Xiangmin, Xi'an Institute of Optics and Precision Mechanics of CAS, China
12. Automatic and global optimized design method of freeform imaging systems——MA Donglin, Huazhong University of Science and Technology, China
13. Research on measurement technology of complex optical surface——MA Xinxue, Changchun Institute of Optics,Fine Mechanicsand Physics, China
14. Design of an Extremely simplified imaging Optical System——PIAO Mingxu, Changchun University of Science and Technology, China
15. Reasearch on the design of progressive addition multifocal defocused freedom lenses——XIANG Huazhong, University Of Shanghai For Science And Technology, China
16. Research on Laser Polishing Technology for Diamond Microspheres in ICF——ZHANG Chunyu, Laser Fusion Research Center, China Academy of Engineering Physics, China
17. Compliant machining technology for complex optical components made of hard and brittle materials——ZHU Wule, Zhejiang University, China
 
Conf. 8 Optical Devices and Integration
 
1. Recent progress on silicon integrated magneto-optical nonreciprocal photonic devices——BI Lei, Hunan University, China 
2. High coherence on-chip optical frequency comb——CHANG Lin, Peking University, China 
3. Solving optimization problem with photonic chip——FENG Xue, Tsinghua University, China 
4. Research on wideband two-dimensional (2D) photodetector array——GU Yiying, Dalian University of Technology, China
5. Low-loss phase change materials-integrated silicon photonic devices with nonvolatile reconfigurability——LI Junying, Hangzhou Institute for Advanced Study, UCAS, China
6. All-optical signal processing and transmission enabled by silicon photonic integrated circuits——LI Yu, Shanghai Jiao Tong University, China
7. Ultra-low loss silicon nitride platform and its applications——LIANG Yuxin, Chongqing United Microelectronics Center, China 
8. On chip structure light manipulation by inverse design——LIN Hongtao, Zhejiang University, China
9. High-integrated optoelectronic hybrid intelligent computing——SHI Nuannuan, Institute of Semiconductors, CAS, China
10. Advanced short-wave mid-infrared semiconductor lasers enabled by hybrid integration——WANG Ruijun, Sun Yat-sen University, China
11. Ultra-compact and high-speed silicon-based optoelectronic integrated devices——WANG Yilun, National University of Defense Technology, China
12. Progress of advanced silicon photonic manufacturing platform——YANG Fenghe, Zhangjiang Lab, China
13. Integrated 3D photonics with artificial intelligence applications——Alex Yasha YI, University of Michigan, USA
14. Free-form fiber-to-chip coupler for highly efficient optical interconnect——YU Shaoliang, Zhejiang Lab, China
15. TBD——ZHANG Lei, Beijing University of Posts and Telecommunications, China
16. Short-wavelength mid-infrared integrated optical spectrometer on silicon——ZHANG Zunyue, Tianjin University, China 
17. Research on optoelectronic-integrated precision measurement technology——ZHOU Heng, University of Electronic Science and Technology of China, China
 
Conf. 10 Computational Imaging
 
1. Research and Application of Structured Light Measurement Technology Based on Polarization Imaging——ZHU Zhenmin, East China Jiaotong University, China
2. Lightweight Computational Photography in Low-light Environments——SUO Jinli, Tsinghua University, China 
3. Advances in optical mammography——CHEN Nanguang, National University of Singapore, SGP 
4. Quantitative phase imaging of functional activities in neurons and retinal cells——LING Tong, Nanyang Technology University, SGP 
5. Scanning-free three-dimensional fluorescent dipoles imaging by polarization self-interference digital holography (pSIDH)——MAN Tianlong, Beijing University of Technology, China 
6. High Dynamic Range Deflectometry Technology of Hybrid Surfaces Based on Wavefront Manipulation——NIU Zhenqi, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, China
7. Simplified Computational Spectrometer and Multidimensional Imaging System Based on Compressive Sensing——LIU Baolei, Beihang University, China 
8. Optical imaging enhancement technology utilizing scattering information——LIU Jinpeng, Xidian University, China 
9. Miniaturized High-precision Passive Stereo Imaging with Metasurfaces——FU Boyan, Nanjing University, China 
10. Polarization Endoscopic Imaging——QI Ji, Zhejiang Lab,China
11. Confocal structured illumination microscopy——PENG JunZheng, Jinan University, China 
12. High-precision Quantitative Phase Imaging Based on Fourier Ptychography with Boundary Extension——SUN Jiasong, Nanjing University of Science and Technology, China 
13. Computational Ghost Imaging in Water-related Environment——SUN Zhe, Northwestern Polytechnical University, China 
14. High-Resolution Imaging through Dynamic Scattering Media——XIANG Meng, Xidian University, China
15. Polarization Imaging Technology and Application for DoFP polarimeters——ZHANG Junchao, Central South University, China

Conf. 11 Quantum Optics 

1. High-dimensional quantum entanglement and chip-scale quantum logic——CHENG Xiang, Huazhong University of Science and Technology, China
2. Non-Hermitian cQED at the chiral exceptional point——CHEN Yan, National university of Defense Technology, China
3. Quantum Optomechanics and its Applications——DENG Guangwei, University of Electronic Science and Technology of China
4. Photonic Quantum Computational Advantage——DENG Yuhao, University of Science and Technology of China
5. Identical Photons and Coherent Spins from Low-Noise GaAs Quantum Dots——ZHAI Liang, University of Electronic Science and Technology of China, China
6. Quantum Computing and Quantum Error Correction in Silicon——HE Yu, Shenzhen International Quantum Academy, China
7. Quantum Collective Measurements——HOU Zhibo, University of Science and Technology of China
8. Ultrahigh-Q metasurfaces for enhancing quantum light sources——LI Guangyuan, Beijing Institute of Technology, Zhuhai, China
9. Progress on Optical Tweezer Arrays of Nuclear-Spin Qubits——LI Xiangliang, Beijing Academy of Quantum Information Sciences, China
10. Sr Optical Lattice Clocks and their Remote Comparisons——LIN Yige, National Institute of Metrology, China
11. Quantum state preparation based on dynamical control——LIU Yongchun, Tsinghua University, China
12. Quantum learning advantage in a scalable photonic platform——LIU Zhenghao, Technical University of Denmark
13. Quantum Programming of Topological Phases of Matter——MEI Feng, Shanxi University, China
14. Entangled state control based on non-Hermitian exceptional points——TANG Zan, The Hong Kong Polytechnic University, China
15. Generation of continuous variable squeezed states in the millihertz frequency band——TIAN Long, Shanxi University, China
16. Scaling up integrated quantum photonic circuits——WANG Jianwei, Peking University, China
17. Quantum control and quantum precision measurement of silicon carbide color center——WANG Junfeng, Sichuan University, China
18. Experimental simulation of high-order topological exceptional points with single photons——WANG Kunkun, Anhui University, China
19. Chip-Based Quantum Key Distribution Systems: Development and Applications——WEI Kejin, Guangxi University, China
20. Drone-based Quantum Key Distribution——XIE zhenda, Nanjing University, China
21. Quantum computation with spins in silicon——coherence, integration, and scaling——XUE Xiao, Hefei National Laboratory / Shenzhen International Quantum Academy
22. Towards quantum-enhanced sensing and imaging with multi-parameter estimation——ZHANG Lijian, Nanjing University, China
23. Enhanced sensing of radio frequency based on Rydberg atoms——ZHANG LINJIE, Shanxi university, China
24. Beyond Flatland Physics: Hyperbolic Topological States and its Applications——ZHANG Weixuan, Beijing Institute of Technology, China
25. Integrated and high-speed quantum key distribution——ZHOU Lai, Beijing Academy of Quantum Information Sciences, China
26. Telecom wavelength quantum sources and spin qubits——ZHOU Yu, Harbin Institute of Technology (Shenzhen), China

Conf. 13  AI with/for Optics and Photonics

1. Optical Neuromorphic Convolution accelerator based on Time and Wavelength Interleaving——BAI Yunping, Beijing University of Posts and Telecommunications, China
2. Uncertainty-based computational imaging——BIAN Liheng, Beijing Institute of Technology, China
3. Bioinspired in-sensor computing for artificial vision——CHAI Yang, The Hong Kong Polytechnic University, China
4. Ultra-fast Analog Photoelectronic Chip for ADC-free Vision Processing——CHEN Yitong, Shanghai Jiao Tong University, China
5. Recent progress of photonic in-memory computing——CHENG Zengguang, Fudan University, China
6. Optical Phase- From intelligent computation to manipulation——GENG Zihan, Tsinghua University, China
7. Theoretical and experimental study on photonic reservoir computing——GUO Xingxing, Xidian University, China
8. Multi-functional optical neural network chip——HU Xiaoyong, Peking University, China
9. Artificial intelligence enhanced metalens imaging——LI Tao, Nanjing University, China
10. Silicon photonics AI acceleration chip fabrication platform and applications——LIU Shengping, United Microelectronics Center (CUMEC), China
11. Silicon-based scattering metastructure logic computing chip for ONN——LIU Xu, Southeast University, China
12. High speed signal equalization technology based on Artificial Intelligence——QIN Jun, Beijing Information Science and Technology University, China
13. Enabling AI-Era Photonic Computing with Integrated Silicon Photonics and Quantum Dot On-Chip Lasers——WAN Yating, King Abdullah University Of Science And Technology
14. Fourier-free Frequency Modulated LiDAR——WANG Chao, University of Kent, United Kingdom
15. Optimal design of ultra-compact silicon photonic AI computing——WU Jiagui, Southwest University, China/ YANG Junbo, National University of Defense Technology, China
16. Structured illumination using deep learning with applications to high-speed 3D surface imaging——YIN Wei, Nanjing University of Science and Technology, China
17. Satellite Laser Communication with Integrated Acquisition and Transmission——YU Zhenming, Beijing University of Posts and Telecommunications, China
18. Photonic reservoir computing for prediction of spatio-temporal dynamics——ZHANG Liyue, Southwest Jiaotong University, China
19. Broadband optical amplification and its applications——ZHAO Ping, Sichuan University, China
20. Optoelectronic neuromorphic device——ZHOU Ye, Shenzhen University, China

Conf. 14 Display Technology and Optical Storage

1. Engineering Plasmonic Nanostructures for Smart Optical Materials——YIN Yadong, University of California, Riverside, USA
2. Nanostructured Interface Engineering on High-Performance Perovskite Light-Emitting Diodes——TANG Jianxin, Macau University of Science and Technology, China
3. Development of P Hotolitho graphic Patterning of Quantum Dots for Electroluminescence——CHEN Zhuo, BOE Technology Group Co., Ltd., China
4. Ultrafast laser direct writing for eternal optical data storage——WANG Lei, Jilin University, China
5. Efficient All-Thermally Evaporated Perovskite Light Emitting Diodes for Active-Matrix Displays——LI Jinghui, Hangzhou Institute for Advanced Study,UCAS, China
6. Research on the sidewall treatment and the microscopic EL of Micro-LEDs——GUO Weijie, Xiamen University, China
7. Nanosurface Reconstruction of Quantum Dots and Their Applications in Active-Matrix Light-emitting Diodes Displays——DAI Xingliang, Zhejiang University, China
8. Ultra-broadband mid-infrared semiconductor laser——MENG Bo, Changchun Institute of Optics,Fine Mechanicsand Physics,Chinese Academy of Sciences, China
9. Momentum-space tunable metasurfaces for switchable image processing——ZOU Chengjun, Institute of Microelectronics of the Chinese Academy of Sciences, China
10. Nanophotonics for multi-dimensional light field sensing——JIN Chunqi, Jilin University, China
11. Non-lead metal halide luminescent materials and devices——SHI Zhifeng, Zhengzhou University, China
12. On full-Stokes polarization camera and its snapshot polarimetric imaging——REN Liyong, Shaanxi Normal University, China
13. Stabilization and Pixelation of Light-emitting Diodes——CHEN Yu, Soochow University, China
14. Research on Phase-Only Holograms Encoding and Optimization Algorithms——HAN Chao, Anhui Polytechnic University, China
15. Wigner Distribution Function Based Optimization for Speckle-Free Computer-Generated Holography——PI Dapu, University of Shanghai for Science and Technology, China
16. Light field 3D display with high performance——WANG Qionghua, Beihang University, China
17. 360-Degree Dynamic Holographic Three-Dimensional Display——LIU Juan, Beijing Institute of Technology, China
18. Liquid lens based holographic camera for real 3D scene hologram acquisition——WANG Di, Beihang University, China
19. Wide field of view metalens for near-infrared capsule endoscopy——HU Bin, Beijing Institute of Technology, China
20. Micro-LED Retinal Projection for Augmented Reality Near-Eye Displays——CHEN Enguo, Fuzhou University, China
21. Applications of perovskite LEDs in multifunctional display and light communication system——YUAN Zhongchen, University of Oxford, UK
22. Freeform Liquid-crystal HOEs and AR Near-eye Display——WU Rengmao, Zhejiang University, China
23. Generative AI and Optics: Collaborative Innovation in Imaging and Display——LIU Qiegen, Nanchang University, China
24. End-to-End Inverse Design Strategy for Metasurface Holography and Hybrid Optical System——HUANG Lingling, Beijing Institute of Technology, China
25. 3D Light Field Display Technology and Applications——YU Xunbo, Beijing University of Posts and Telecommunications, China
26. A See-Through Aerial Display using Dihedral Corner Reflector Array and Hologram Mirrors, and Its Application into Depth Fused 3-D Displays——Isamu Nakao, Nagasaki University, Japan
27. 3D Light Field Display Technology and Applications——SANG Xinzhu, Beijing University of Posts and Telecommunications, China
28. Holographic Storage Actuator with Objective-Mirror Synchronization——YANG Rupeng, Fujian Normal University, China

Conf. 15  Biomedical Optics 

1. Live-cell super-resolution microscopy imaging technologies based on structured illumination ——Zuo Chao, Nanjing University of Science and Technology, China 
2. Computational volumetric Raman imaging——Chen Xueli, Xidian University, China 
3. Fast Segmentation and Multiplexing Imaging of Organelles in Live Cells——Li Meiqi, Peking University, China 
4. Development and Intelligent Applications of Optical Imaging Technologies——Liu Liwei, Shenzhen University, China
5. Computational light-field microscopy——Wu Jiamin, Tsinghua University, China 
6. Fast, precise generation of mesoscale structured illumination——Zhang Hao, Ningbo Oriental Polytechnic University (tentative name), China
7. Spatiotemporal super-resolution in situ——Zhao Weisong, Harbin Institute of Technology, China
8. Ptychography for lensless bio-imaging in microscopy and endoscopy——Zheng Guoan, University of Connecticut, USA 
9. AI-assisted Stimulated Raman Histology for Cancer Diagnosis——Ji Minbiao, Fudan University, China 
10. High-throughput optical diffraction tomography for large-scale 3D analysis of living cells—— Zhou Renjie, The Chinese University of Hong Kong, China 
11. ——Yang Qing, Zhejiang University, China 
12. Quantitative high-fidelity reconstruction algorithm for structured illumination microscopy——Fan Junchao, Chongqing University of Posts and Telecommunications, China
13. High axial resolution and imaging speeds three-dimensional live cell imaging——Huang Xiaoshuai, Peking University, China 
14. NIR-II Fluorescence Imaging for Biomedical Applications ——Qian Jun, Zhejiang University, China
15. High spatiotemporal light-field microscopy and its biological applications——Li Dongyu, Huazhong University of Science and Technology, China 
16. High Spatiotemporal Resolution Multimodal In Vivo Optical Microscopy ——Qu Junle, Shenzhen University, China 
17. Fluorescence Molecular Tomography Imaging for Precision Tumor Theranostics——Du Yang, Institute of Automation, Chinese Academy of Sciences, China 
18. ——Wang Feifei, Hongkong University, China
19. CRISPR-Powered Photonic Biosensors——Chen Zhi, Korea University, Korea 
 
 
Conf. 16  Atmospheric and Environmental Optics
 
1. The application of laser spectroscopy in radiocarbon analyses——GUAN Zuguang, Zhejiang Normal University, China
2. Precise hyperspectral remote sensing for carbon emission reduction and pollution abatement——LIU Cheng, University of Science and Technology of China, China 
3. TBD——LIU Dong, Zhejiang University
4. Fluorescence spectroscopy measurement technique for atmospheric radicals——LU Keding, Peking University, China
5. TBD——MA Weiguang, Shanxi University, China 
6. Ppq-level gas sensing based on quartz-enhanced laser spectroscopy——MA Yufei, Harbin Institute of Technology, China 
7. Detecting stereoscopic distribution of carbon dioxide using single photon spectroscopy——SUN Youwen, Hefei Institutes of Physical Science, CAS, China
8. Detection technology for vertical characteristics of PM2.5 and O3 in atmospheric boundary layer and its application in Jianghuai region——WANG Zhenzhu, Hefei Institutes of Physical Science, CAS, China 
9. DAO-1: A Chinese pathfinder limb satellite for middle and upper atmosphere observation——XIE Wanyi, Jianghuai Advanced Technology Center, China
10. Research and application of gas detection technology based on spectroscopic technology——XU Xuezhe, Landun Photoelectron Co., Ltd., China
11. The study of the dynamic processes in ionospheric e-f region by using all solid opo lidar——YANG Guotao, National Space Science Center, China 
12. TBD——YANG Ting, Institute of Atmospheric Physics, CAS, China
 
 

About Beijing
 
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.
 
 

Youth Development Forum

Time: 13:30-17:30  Afternoon 24 June 
Location: Conference room 401, 403, Level 4, CNCC



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