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：WANG Haiming，wanghaiming@csoe.org.cn, 86-22-59013420

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

China National Convention Center （CNCC）

Address: No.7 Tianchen East Road, Chaoyang District, Beijing China

Tel: +86 10 6499 1899 / +86 10 8437 2008

 

国家会议中心

地址：北京市朝阳区天辰东路7号

 

 

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

 

 

 

 

Registration for Foreign 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:



 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。

650USD

 

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

 

 

Download Notice in Chinese:
1

 

 

 

 

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: 20 May 2025 (3nd Round)

 

   Abstract Template 2025.doc

TBC

Manuscript Submission: 
TBC

Advanced laser materials and laser technologies

Advanced laser processing and manufacturing

Laser transmission and communication

Laser field control and beam control

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

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

 

Biomedical optics components, products, instrumentation, and applications

Molecular imaging

Therapeutic lasers

Nano/biophotonics

Biosensors

Spectroscopic/microscopic imaging

Other related technologies

 

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

 

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

 

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

 

High speed optical transmission technology

Optical communication Integrated Circuit

Analysis and compensation techniques for atmospheric/cross media/underwater channels

Visible Light Communications

 

Chinese Society for Optical Engineering (CSOE), China

 

SPIE, USA

 

Tsinghua University, China

University of Electronic Science and Technology of China, China

Nanjing University of Science and Technology, China

North University of China

Tianjin Jinhang Technical Physics Institute, 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 

 

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）

 

 
 

 

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

 

 

 

TBC
 

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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

 

 

 

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 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 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 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.