本次培训主题：

，如想参加可咨询组委会wanghaiming@csoe.org.cn，022-59013420

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Chinese Society for Optical Engineering (CSOE)

Jiangsu Youbo Photoelectric Technology Co., LTD
Jiahehengde Technology Co., Ltd
ORDOVISION
Beijing High-Precision Technology Co., Ltd.

ZHUANG Songlin, Academician, University of Shanghai for Scienceand Technology

GUO Dongming, Academician, Dalian University of Technology

JIANG Zhuangde, Academician, Xi’an Jiaotong University
Wing Bun LEE, Professor, The Hong Kong Polytechnic University
Chairs：

TAN Jiubin, Academician, Harbin Institute of Technology

LUO Xiangang, Academician, Institute of Optics And Electronics, Chinese Academy of Sciences
YUE Xiaobin, Institute of Machinery Manufacturing Technology
International Chair：
Prof. Koji Sugioka，RIKEN，Japan

※Chairs：

KONG Lingbao, Fudan University

ZHANG Dawei, University of Shanghai for Science and Technology

培训咨询：

王海明（中国光学工程学会）

wanghaiming@csoe.org.cn，022-59013420

任莹晖（湖南大学）

rebecca_ryh@hnu.edu.cn

This topic intends to reflect the latest developments in large optical mirror and telescope, including but not limited to: scientific object observation and optical engineering technology, optimization design of large aperture lightweight optical mirror, advanced optics and structural materials, high precision and stability mirror and structure support technology, measurement and control technology of segmented mirror synthetic aperture optics, integrated design of large photoelectric instrument, active optics and adaptive optics, giant tracking junction and its high precision stability control technology, consistency between ground and its space mission for space telescope, precision assembly technology of large photoelectric instruments, test and measurement technology of complicated optical elements and systems.

XUE Donglin, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

FAN Bin, Institute of Optics and Electronics, CAS

WANG Wei, Fudan University

WANG Wei, National Astronomical Observatories, CAS

YUAN Qun, Nanjing University of Science and Technology

LIU Haitao, Institute of Optics and Electronics, CAS

ZHANG Junping, Nanjing Institute of Astronomical Optics & Technology, National Astronomical Observatories, CAS 

WANG Hu, Xi'an Institute of Optics and Precision Mechanics, CAS

WANG Yonggang, Beijing institute of space Mechanics & Electricity

YANG Jixing, Tianjin Jinhang Institute of Technical Physics
YANG Xiaofei, Soochow University
Topic Secretary：
FAN Yanchao, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

This topic intends to reflect the latest developments in ultra-precision optical manufacturing equipment, manufacturing technology and process methods, including but not limited to: ultra-precision turning, milling, grinding, polishing and other processes, laser processing, special processing, new micro-nano processing, molding And injection molding, micro-nano imprinting, adding and subtracting material composite technology, multi-energy field auxiliary processing, tool design and manufacturing, tool wear, machining error diagnosis and optimization, machining path planning and optimization, process chain process modeling and simulation, materials Removal mechanism, finite element and molecular dynamics analysis, vibration control, surface full-frequency error analysis and control, machining accuracy maintenance and reliability, machining and testing integration, machine tool core functional devices (high-performance motor, spindle, grating ruler, motion control Controllers, guide rails, turntables, etc.), ultra-precision machining systems and modules, key precision machining algorithms and software, etc.

KONG Linbao, Fudan University

ZONG Wenjun, Harbin Institute of Technology

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

MA Zhen, Xi'an Institute of Optics and Precision Mechanics, CAS

PENG Xiaoqiang, National University of Defense Technology

WANG Zhenzhong, Xiamen University

YANG Hong, Institute of Machinery Manufacturing Technology

YOU Fangyi, Huaqiao University

ZHU Wule, Zhejiang University

ZHU Zhiwei, Nanjing University of Science And Technology

This topic intends to reflect the latest developments in optical testing, measurement technology, and equipment. The focus includes but is not limited to: optical testing and measurement based standards, metrology and online digital calibration, measurement issues in the advanced optical manufacturing process, optical component geometric parameters and physics Characteristic measurement methods, development of key optical devices in optical measurement systems, test and measurement technologies based on optical devices (gratings, optical fibers, etc.), advanced measurement methods in micro-nano manufacturing, macro and micro measurement techniques, precision and ultra-precision machining measurement, precision and Modern optical technology and instruments for ultra-precision measurement, data processing methods in optical measurement, new optical test and measurement principles, new optical measurement instruments and equipment, new instrument theory and design methods, micro-nano test and measurement methods, extremely small sizes Optical measurement methods, vision measurement technology, etc.

LU Zhengang, Harbin Institute of Technology

YANG Shuming, Xi’an Jiaotong University

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

GU Tianqi, Fuzhou University

REN Mingjun, Shanghai Jiao Tong University

ZHANG Xiaodong, Tianjin University

TAN Yidong, Tsinghua University

CHEN Xiuguo, Huazhong University of Science and Technology

YU Yiting, Northwestern Polytechnical University

HU Pengcheng, Harbin Institute of Technology

SHAN Mingguang, Harbin Engineering University

WANG Yun, Beijing Institute of Technology

HU Yao, Beijing Institute of Technology

ZHANG Xiwen, Aerospace Information Research Institute, CAS

SHEN Hua, Nanjing University of Science and Technology 

WU Guanhao, Tsinghua University

This topic is intended to reflect the latest development of new systems, concepts, designs, technology and methods, with emphasis on but not limited to: novel optical design, optical fabrication, optical detection, optical alignment; highlight new technology, new materials, new design, new methods, new ideas and new concepts; realize the manufacture of metal optics, infrared freeform surface and die steel; obtain the new characterization of magneto rheological, ion beam, liquid jet, NC grinding and freeform surface; present the new concept of inspection method, machining method and assembly method.

XUE Changxi, Changchun University of Science and Technology

ZHANG Yunlong, Xi’an Institute of Applied Optics

XU Liang, Xi'an Institute of Optics and Precision Mechanics, CAS

WU Rengmao, Zhejiang University

ZHANG Cheng, Huazhong University of Science and Technology

WANG Xuewen, Wuhan University of Technology

BAI Yang, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

ZHAO Hongchao, Sun Yat-sen University

YAN Lisong, Huazhong University of Science and Technology

XIE Bin, Soochow University

CHEN Lei, China Aerodynamics Research and Development Center

WANG Jing, Xi’an Institute of Applied Optics

ZHANG Feng, Xi’an Institute of Applied Optics
Topic Secretary：

YANG Chao, Changchun University of Science and Technology

This topic intends to reflect the latest developments in super-resolution manufacturing and equipment, including but not limited to: new mechanisms and new methods of super-resolution manufacturing, surface plasma lithography and equipment, super-resolution additive manufacturing technology and equipment , Sub-wavelength structure manufacturing technology, super-resolution laser direct writing lithography and equipment, nanoimprint technology and equipment, atom lithography and applications, scanning probe direct writing and equipment, laser scanning holographic lithography, advanced process technology, new materials and applications, near-field optical detection technology, nano and sub-nanometer precision leveling and alignment technology

GAO Ping, Institute of Optics and Electronics, CAS

XU Ting, Nanjing University

WANG Liang, University of Science and Technology of China 
L. Jay Guo, University of Michigan，USA

YUE Weisheng, Institute of Optics and Electronics, CAS

GAN Zongsong, Huazhong University of Science and Technology

ZHOU Rui, Xiamen University

DENG Xiao, Tongji University

XU Zongwei, Tianjin University

ZHAO Jun, Shanghai Advanced Research Institute, CAS
LI Liansheng, Beijing Institute of Control Engineering

This topic intends to reflect the latest developments in extreme manufacturing technology and equipment, focusing on including but not limited to: extreme-scale (maximum/minimum/cross-scale) optical free-form surfaces and microstructure control, shape-controlling ultra-precision processing technology, and difficult energy field assistance Extreme manufacturing technology of processed materials, extreme manufacturing technology of atomic-level ultra-smooth surface, extreme service performance testing and evaluation technology of high-performance components, high/ultra-high strain rate cutting and grinding processing technology and equipment, etc.

GUO Jiang, Dalian University of Technology

ZHOU Tianfeng, Beijing Institute of Technology

CUI Hailong, Institute of Machinery Manufacturing Technology

GONG Feng, Shenzhen University
Xichun Luo, Centre of Precision Manufacturing, University of Strathclyde，UK

LI Yaguo, Chengdu Fine Optical Engineering Research Center

YANG Gao, Shenzhen University

ZHANG Zhiyu, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

ZHANG Jianguo, Huazhong University of Science and Technology

WANG Chao, Institute of Machinery Manufacturing Technology

GU Yan, Changchun University of Technology

LIAO Degeng, Laser Fusion Research Center

DENG Hui, Southern University of Science and Technology

YAO Peng, Shandong University
LI Haonan, University of Nottingham Ningbo China

This topic intends to reflect the latest developments in novel manufacturing technology, process and approaches, including but not limited to: new nano polishing technology, design and manufacture of metasurfaces/ superstructures materials, advanced beam energy polishing, special material processing technology, advanced surface treatment technology, design and manufacture of new devices, design and development of new processing equipment and tools, new ultra-hard cutting tools, design and optimization of manufacturing process chain, system design and simulation.

XU Xueke, Shanghai hengyi optics precision machinery co., LTD

DAI Bo, University of Shanghai for Science and Technology

CHEN Junyun, Yanshan University

LU Yanjun, Shenzhen University 

SHI Feng, National University of Defense Technology

WANG Shaokai, Harbin Institute of Technology

XIONG Tao, Hubei Jiuzhiyang Infrared System Co., Ltd 

LIU Chao, Beihang University

SU Xing, Institute of Machinery Manufacturing Technology
JIANG Chao, Central South University
Topic Secretary：

FANG Yuanyuan, Shanghai Institute of Optics and Fine Mechanicas, CAS

This topic intends to reflect the latest developments in optical film design, preparation and characterization technology and the application results of major projects. The focus includes but not limited to: new optical film materials covering the optical spectrum from X-ray to far-infrared, and performance control of optical film materials New developments; high-performance optical film design and manufacturing technology represented by X-ray, laser and infrared typical optical spectrum, multi-functional surface film design and manufacturing technology, multifunctional optical film design and manufacturing technology (light, heat, force) , Electricity); film performance testing technology for application requirements, such as ultra-wide spectrum optical constant characterization technology, low loss optical film performance testing technology, special environmental optical film performance evaluation and testing methods, etc.; optical film manufacturing equipment and testing instruments Latest progress, etc.

LIU Huasong, Tianjin Jinhang Institute of Technical Physics

CHENG Xinbin, Tongji University

SHEN Weidong, Zhejiang University

ZHANG Jinlong, Tongji University

WANG Li, Beijing Institute of Space Mechanics & Electricity

TANG Qianlong, Jiangsu North Huguang Opto-electronics Co.,LTD

WANG Xiaoyi, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

LI Gang, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, CAS

DUAN Weibo, Shanghai Institute of Technical Physics of the CAS
WANG Yanzhi，Shanghai Institute of Optics and Fine Mechanicas, CAS

This topic intends to reflect the latest development of flexible materials and devices, focusing on including but not limited to: flexible material performance research and device preparation, including mechanical and optical performance analysis of flexible materials, optical structure design of flexible devices, and micro-nano processing technology used in preparation And the preparation of multi-material multi-component devices, system integration, etc.; functional applications of flexible materials and devices, such as flexible displays (intraocular lenses), photonic circuits, biological systems, sensors (strain, temperature, biochemical molecules, etc.), energy harvesters , Application and performance analysis of flexible optical devices such as wide-band tunable stealth devices and nano imaging super lenses in sensing, optical interconnection, light field control and other fields.

JI Shijun, Jilin University

HU Shanshan, Guangxi University

FAN Cheng, Soochow University 

WANG Maolu, Harbin Institute of Technology

ZHANG Xinge, Jilin University

WANG Hua, Taiyuan University of Technology

WANG Dongfang, Shanghai Institute of Technical Physics of the CAS

YUAN Zhishan, Guangdong University of Technology

WANG Kejun, Soochow University

This topic intends to reflect the latest developments in optical system integration in optical manufacturing and equipment, including but not limited to: spatial complex focal plane splicing and registration technology, high precision centering, alignment and test for composite optical system, system integration and test technology of stereo mapping camera, inner orientation element and distortion measurement, optical alignment and performance evaluation of cryogenic optical system, optical alignment and performance evaluation of infrared optical system, optical alignment and performance evaluation of laser tracking system, optical alignment and test of Fourier and grating spectrometers, computer-aided alignment technology, gluing and assembly with torsionless stress, in-situ detection technology, high precision positioning and multi-degree of freedom alignment technology, optical surface evaluation technique based on frequency component, wavefront detection technology, high-power laser system assembly technology.

ZHANG Jiyou, Beijing Institute of Space Mechanics & Electricity

WU Xuefeng, Harbin University of Science and Technology

SHEN Zhengxiang, Tongji University

ZHANG Ming, Institute of Optics and Electronics, CAS

DONG Zhichao, Technical Institute of Physics and Chemistry, CAS

ZHAO Chengqiang, Shanghai Institute of Optics and Fine Mechanics, CAS

YUN Yu, China Jiuyuan hi-tech Equipment Co., Ltd

WANG Haitao, Huazhong Institute of Photoelectric Technology

BI Yong, CAS Nanjing Astronomical Instruments Co., LTD

XU Song, Shanghai Aerospace Control Technology Institute

This topic intends to reflect the latest developments in the field of optoelectronic materials and devices for image sensors and detectors, including but not limited to: growth, characterization and modeling of optoelectronic materials and devices, X-ray, ultraviolet, visible light, near infrared Design and manufacture of photodetectors for short-wave infrared, mid-wave infrared, long-wave infrared, and very long-wave infrared, the readout circuit and low-temperature electronics of photodetectors, digital focal plane, intelligent focal plane, photoelectric integrated micro system, Environmental adaptability and reliability of photodetectors.

CHEN Ruiming, Beijing Institute of Space Mechanics & Electricity

WANG Shaowei, Shanghai Institute of Technical Physics of the CAS

HU Weida, Shanghai Institute of Technical Physics of the CAS

WANG Jianlu, Shanghai Institute of Technical Physics of the CAS 

ZHOU Peng, Fudan University

XU Jiangtao, Tianjin University

WANG Lai, Tsinghua University

LU Wengao, Peking University

LIU Liyuan, Institute of Semiconductors, CAS
Topic Secretary：

HAN Liqiang, Beijing Institute of Space Mechanics & Electricity

This topic intends to reflect the latest developments in optofluidic chip manufacturing technology and its applications, combining optical manufacturing and microfluidics technology, including but not limited to: discussing the research progress of using microfluidic technology to manufacture various optical components, and using Research progress on the preparation of microfluidic chips with different optical manufacturing technologies. Analyze the characteristics and advantages of optical flow control components and systems, and demonstrate the application of optical flow control technology in optical inspection, biomedicine, chemical analysis, and real-time inspection. It aims to use these new technologies to provide better solutions for the next generation of precision optical systems such as biochemical analysis, medical testing, and environmental monitoring.

ZHANG Dawei, University of Shanghai for Science and Technology

YANG Yi, Wuhan University

JIANG Xuesong, Shanghai Jiao Tong University 

SHUI Lingling, South China University of Technology

WANG Guanghui, Nanjing University

GONG Yuan, University of Electronic Science and Technology of China

WU Jiandong, Shenzhen Institute of Advanced Technology, CAS

This topic intends to reflect the latest developments in intelligent manufacturing and equipment, including but not limited to: New concept and model of intelligent manufacturing, digital twin and virtual reality, smart equipment design, sensor and technique for intelligent manufacturing, monitoring technology for the manufacturing processing, structural and non-structural big data base, processing and feature fusion of big manufacturing data, deep learning and artificial intelligent, Intelligent evaluation and control, Smart manufacturing application of IOT (internet of thing) and 5G etc.

PENG Yunfeng, Xiamen University

WANG Wei, University of Electronic Science and Technology of China

WANG Sujuan, Guangdong University of Technology 

CHEN Guoda, Zhejiang University of Technology

HUANG Peng, Shenzhen University

ZHANG Guoqing, Shenzhen University

SUN Zhanwen, Guangdong University of Technology

ZHANG Shaojian, Nanchang University

This topic focuses on the latest developments and applications of advanced optical technology in biomedicine. This topic will discuss the feasibility and advantages of new optical materials, optical devices, spectroscopy and imaging systems corresponding to various application scenarios in biomedicine. It aims to promote the two-way relationship between application and manufacturing, so that advanced optical manufacturing can be further applied and promoted in biomedical research, medical testing and other aspects. At the same time, the demand side puts forward further improvement requirements for advanced optical manufacturing.

MA Jiong, Fudan University

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

WU Xiang, Fudan University

LI Hui, Suzhou Institute of Biomedical Engineering and Technology, CAS

SI Ke, Zhejiang University

MU Quanquan, Changchun Institute of Optics, Fine Mechanics and Physics, CAS

 

lvzichen@csoe.org.cn，13810226340

wei_w@fudan.edu.cn

 

 

The white paper on the value of proceedings is at The unique value of Proceedings of SPIE     Value of Proceedings.pdf

 

Presenting and publishing your research in Proceedings of SPIE has multiple professional and business benefits. Read The Value of Proceedings white paper for a comprehensive discussion.

 

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PhotoniX、Optical Engineering (SCI)、Journal of Micro/Nanolithography、MEMS、and MOEMS (SCI)、Photonic Sensors (SCI)、Opto-Electronic Advances(OEA)（SCI）、《信息与电子工程前沿（英文）》（FITEE）（SCI）、《红外与激光工程》(Ei)、《中国光学》（ESCI、Ei）、《光子学报》（Ei）、《光学精密工程》（Ei）etc.

 

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Conference fees include information kits, report essays, conference guide documents, conference miscellaneous expenses, taxes, etc., excluding paper layout fees and accommodation fees.

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The meeting will provide a formal meeting fee invoice.

Prof. Peter R. Herman，University of Toronto, Canada

Prof. Craig B. Arnold, Princeton University, USA

Prof. Kenichi L. Ishikawa，University of Tokyo，Japan——Building Science and Theory for Smart Laser Manufacturing
Prof. Benny C.F. Cheung, The Hong Kong Polytechnic University, Hong Kong, China——Nano-surface Generation in Ultra-precision Machining and Applications

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