Topics:
Topic1: Advanced Laser Materials and Laser Technology
Chairs:
Huang Yongzhen, Institute of Semiconductors,CAS, China
Bai Zhenxu ,Hebei University of Technology, China
Yu Ting,Shanghai Institute of Optics and Fine Mechanics, CAS, China
Topics:
Novel solid state laser
High energy and high power solid-state laser
Ultrafast laser and ultra-short pulse laser
Narrow linewidth laser
Microcavity laser
Laser frequency conversion and tuning technology
Beam combination technology
New laser crystals and materials
Special wavelength fiber laser
Mid-infrared fiber laser
Tm/Ho fiber laser
Green light fiber laser
New style or new material fiber laser
Supercontinuum laser
Photonic crystal fiber laser
Semiconductor laser technology
Laser nonlinear dynamic physics
Characterization and control of dynamic behavior of semiconductor lasers
Microwave signal generation and processing based on laser dynamics
Chaotic semiconductor lasers and chaotic communication applications
Dynamic characteristics of high speed semiconductor lasers
Dynamic behavior of novel semiconductor lasers, including quantum dots, quantum cascades, inter band cascades, topology and so on
New applications of laser dynamics
Topic2: Advanced Laser Processing and Manufacturing
Chairs:
Song Feng, Nankai University, China
Chen Qidai, Jinlin University, China
Topics:
Laser cleaning
Laser light source for laser cleaning
Optical transmission and shaping in laser cleaning
Intelligent control of laser cleaning process
Laser cleaning effect monitoring
Laser cleaning mechanism
Specific application of laser cleaning
Ultrafast Laser Micro Nano Processing
Ultrafast Laser Field Manipulation and Application
Multidimensional Light Filed Control
New Principle and Method of Laser Micro/Nano Fabrication
Principles of Plasmonic Light-field Enhancement and Control
Efficient Manufacturing of Hard and Brittle Materials
Laser Fine Manufacturing Technology and Equipment
Two-photon Polymerization Microfabrication
Topic3: Laser Transmission and Communication
Chairs:
Tan Yidong, Tsinghua University, China
Wang Mingju , Xi’an University of Technology, China
Wang Tianshu, Changchun University of Science and Technology, China
Topics:
Laser detection and information processing
Laser interferoemetry
Laser range finding
LIDAR
Laser spectral detection
Speckle measurement
3D vision measurement
Laser-based imaging and processing
Laser communication
Far-infrared long-wave laser communication
Ground-to-air airborne and satellite link laser communication
Vortex Optical Communication
Underwater Laser Communication
Topic4: Light manipulation and applications
Chairs:
Wang Feng
Ren Yuan, Space Engineering University, China
Yang Yuanjie, University of Electronic Science and Technology of China, China
Topics:
Polarized light field
Formation mechanism of polarized light field
Description of polarized light field characteristics
Polarized light field simulation
Polarized light field detection method
Application of polarized light field
Novel Light Manipulation, Propagation and Application
Novel structured light manipulation technology
Structured light propagation and beam control
metasurface for light manipulation and application
Light manipulation in nonlinear optics
Structured light in imaging, sensing and communication
Structured light in quantum optics and quantum information
Other related technologies
Generation and regulation of novel light field
Structured beams: Generation, manipulation and applications:
Generation of structured beams
Optical vortex lasers
Surface plasmon polaritons (SPPs) vortices
Vector vortex beams
Ultrashort vortex pulses
Manipulation of orbital angular momentum
Applications of structured beams
Topic5: THz Technology and Application
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: Infrared Devices and Infrared Technology
Chair:
GONG Haimei,The Shanghai Institute of Technical Physics, CAS, China
LU Jin, Tianjin Jinhang Institute of Technical Physics, China
Topics:
Novel infrared and photo-electronic materials and manufacturing
Advances in shortwave, mid-wave and long-wave infrared detectors and FPAs
Novel infrared detector and technology
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 level light devices and applications
Information acquisition and signal processing technologies
Testing and evaluation of infrared imaging and detecting system
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
Topic7: Optoelectronic Devices and Integration
Chairs:
CHENG Buwen, Institute of Semiconductors, CAS, China
DAI Daoxin, Zhejiang University, China
GUO Jin, United Microelectronics Center (CUMEC), China
QIAN Sen, Institute of High Energy Physics, CAS, China
Topics:
Semiconductor lasers and LEDs
Light detection and devices
Silicon Photonics
New material platform for optoelectronics
Optoelectronic integration
Other related technologies
Topic8: Nano Photonics
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
Topic9: Display Technology and Optical Storage
Chair:
WANG Yongtian, Beijing Institute of Technology, China
Co-chair:
CAO Liangcai ,Tsinghua University, China
Topics:
Laser display
Laser and light sources
OLED
Optical memories for big data storage
Display technology and process
Optical components
Imaging technologies and devices
Image quality and human vision
Holographic storage and 3D displays technology
liquid Crystal display
QLED
TFT-LCD
Mini LED
Electronic paper display
Micro- LED displays
Emerging techniques
Topic10: Optical Display and Sensing in Augmented, Virtual, and Mixed Reality (AR, VR, MR)
VR/AR/MR Input Devices
Touch and Interactive Displa
Tracking and Sensing
Near-eye displays
Naked eye 3D displays
helmet mounted display
Vehicle Display
VR/AR/MR Computer Graphics
Distributed VR/AR/MR
Topic11: Optical Spectroscopy and Imaging
Chairs:
FENG Yutao, Xi'an Institute of Optics and Precision Mechanics, CAS, China
YANG Zongyin, Zhejiang University, China
LUO,Ali , National Astronomical Observatories, CAS, China
Topics:
Sensor design, development, and characterization
Performance evaluation and calibration of sensors and systems
Atmospheric modeling, compensation and application in environment monitoring
Spectral technologies and application in deep space and astronomy exploration
Target detection, classification and characterization method based on multi/hyperspectral imaging technology
Other related technologies
Topic12:Optical Sensing and Imaging Technology
Chairs:
JIANG Yadong, University of Electronic Science and Technology of China, China
LIU Dong,Zhejiang University, China
XUE Bin,Tianjin University, China
Topics:
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
Topic13:Novel Optical Design
Chairs:
KONG Lingbao, Fudan University, China
ZHANG Dawei, University of Shanghai for Science and Technology, China
Co-chairs:
FENG Zexin,Beijing Institute of Technology, China
Committee:
MAO Xianglong,Xi’an Institute of Optics and Precision Mechanics, CAS
XIANG Huazhong,University of Shanghai for Science and Technology
WANG Kun,Fujian Normal University
Topics:
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
Other related technologies
Topic14:Optics Ultra Precision Manufacturing and Testing
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
Topic15:Quantum Information Technology
Quantum Computation and Simulation
Quantum Communication, Quantum Cryprography
Quantum Metrology, Quantum Sensing
Quantum Networks, Memory and Repeaters
Quantum Error Correction
Quantum Control and Engineering
Quantum Imaging
Quantum Information Theory
Quantum Information Applications in NISQ
Other related technologies
Topic16:Micro-optics and MOEMS
Advanced Fabrication Technologies for Micro/Nano Optics and Photonics
MOEMS and Miniaturized Systems
Emerging Digital Micromirror Device based Systems and Applications
Microfluidics, BioMEMS, and Medical Microsystems
Adaptive Optics and Wavefront Control for Biological Systems
Topic17:Biomedical Optics
Chairs:
QU Junle, Shenzhen University, China
FU Ling, Huazhong University of Science and Technology, China
YAO Cuiping, Xi'an Jiaotong University, China
Topics:
Biomedical optics components, products, instrumentation, and applications
Molecular imaging
Therapeutic lasers
Nano/biophotonics
Biosensors
Spectroscopic/microscopic imaging
Other related technologies
Topic18:Atmospheric and Environmental Optics
Chairs:
LIU Jianguo, Hefei Institutes of Physical Science, CAS, China
Co-Chairs:
XU Liang, Anhui Institute of Optics and Fine Mechanics , HFIPS, CAS, China
GAO Jian, Institute of Atmospheric Environment, CRAES, China
Topics:
Atmospheric optical characteristics (atmospheric optical model and prediction, atmospheric turbulence optical characteristics, cloud and sky background radiation characteristics, etc.)
Astro
nomical optical observation and site selection (methods, instruments and equipment, data analysis, etc.)
Atmospheric optical remote sensing (LIDAR atmospheric detection technology, ocean optical remote sensing technology, atmospheric enviro
nment mo
nitoring technology, etc.)
Target detection technology in the atmosphere (novel active and passive detection, computatio
nal imaging, single photon detection, composite detection, etc.)
High-resolution imaging technology in turbulent atmosphere
Atmospheric transmission and correction technology of laser emission
Laser beam quality co
ntrol and coherent synthesis technology
Other related technologies
Topic19:Optical Information and Network
Chairs:
Wu Hequan, China Academy of Engineering, China
Wei Leping, China Telecommunications Corporation, China
Executive Chair:
Zhang Jie, Beijing University of Posts and Telecommunications, China
Co-chairs:
Liu Deming, Huazhong University of Science and Technology, China
Tang Xiongyan, China Unicom, China
Chen Shanzhi, China Information and Communication Technology Group Co., Ltd., China
Shum Perry, Southern University of Science and Technology, Singapore
Ao Li, China Academy of Information and Communications Technology, China
Zhu Ninghua, Institute of Semiconductors, Chinese Academy of Sciences, China
Xie Chongjin, Alibaba, USA
Topics:
Optical communications and networking
Big data in optical communications and networking
Optical and Photonic Metrology
Quantum Optics, Atomic Physics and Quantum Information
Submarine optical cable and communication, Ocean observation and remote sensing, Ocean engineering
Micro and Nanophotonics, and Light Trapping
Optical Communication Systems and Networks
Information security, optical information security
Optical fiber and optical cable
Optical Fiber and Waveguide Technologies
Semiconductor and Integrated Optical Devices
Silicon Photonics
Optical Signal Processing
Other related technologies
Topic20: Novel technologies and instruments for astronomical multi-band observations
High-resolution spectroscopy and high-contrast imaging for astronomy
Millimeter, sub-millimeter, and far-infrared detectors and instrumentation for astronomy
High Energy, Optical, and infrared detectors and instrumentation for astronomy
Specialty optical fibers for astronomy
Advances in optical and mechanical technologies for telescopes and instrumentation
Atmospheric compensation
Materials, Manufacturing, Test and Metrology
Coatings, Filters and Gratings
Application of micro-/nanophotonics in astronomy
Topic21:AI in Optics and Photonics
Chair:
ZUO Chao, Nanjing University of Science and Technology, China
Topics:
Theories and technologies of artificial intelligence
Learning theory
Active learning
online learning
Distributed AI
Reinforcement learning
Cost-Sensitive learning
Evolutionary computation
Transfer, adaptation, multi-task learning
Semi-supervised/unsupervised learning
Structured learning
Other related technologies
Applications of artificial intelligence
Computational imaging with deep neural networks
Artificial intelligence based optical sensing, and display
Learning based optical signal processing
Optical system design by machine learning
Free space optical neural networks for classification
Integrated photonics for artificial neural computing
Photonic neuromorphic computing
Machine-learning-based digital holography
Optical neuron networks
Transportation
1. Aircraft
1) Depart from Beijing Capital International Airport
Take a taxi and it takes about 1 hour.
Take Airport Bus Line 1 (every 30 minutes) to Panjiayuan Station and change taxi. It takes about 1 hour and 25 minutes.
Take the Airport Express (every 10 minutes) to Sanyuanqiao Station and change to a taxi. It takes about 1 hour and 20 minutes.
Take the Airport Express (every 10 minutes) to Sanyuanqiao Station, transfer to Metro Line 10 (inside) to Songjiazhuang, and then transfer to Yizhuang Subway to Rongchang East Street (B2 exit). About 1 hour and 50 minutes.
2. Train
1) Depart from Beijing Railway Station
Take a taxi and it takes about 35 minutes.
Take Metro Line 2 (inside) to Chongwenmen Station, transfer to Metro Line 5 to Songjiazhuang, then transfer to Yizhuang Subway Line to Rongchang East Street (B2 exit). It takes about 1 hour and 10 minutes.
2) Depart from Beijing West Railway Station
Take a taxi and it will take about 50 minutes.
Take Metro Line 7 to Caishikou Station and transfer to Metro Line 4 to the west of Jiaomen. Transfer to Metro Line 10 (outside) to Songjiazhuang, then transfer to Yizhuang Subway Line to Rongchang East Street (Exit B2 ) It takes about 1 hour and 20 minutes.
3) Depart from Beijing South Railway Station
Take a taxi and it takes about 35 minutes.
Take the east section of Metro Line 14 to Puhuangyu Station, transfer to Metro Line 5 to Songjiazhuang Station, and then transfer to Yizhuang Subway Line to Rongchang East Street (B2 exit). It takes about 1 hour.
4) Depart from Beijing North Railway Station
Take a taxi and it takes about 55 minutes.
Take Subway Line 2 (outside) to Chongwenmen, transfer to Subway Line 5 to Songjiazhuang, and then transfer to Yizhuang Subway Line to Rongchang East Street (B2 exit). It takes about 1 hour and 20 minutes.
1、飞机
1) 从北京首都国际机场出发
● 乘坐出租车,需时约1小时。
● 乘坐机场大巴1号线(每30分钟一班)至潘家园站下,换乘出租车,需时约1小时25分钟。
● 乘坐机场快轨(每10分钟一班)至三元桥站下,换乘出租车,需时约1小时20分钟。
● 乘坐机场快轨(每10分钟一班)至三元桥站下,换乘地铁10号线(内)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时50分钟。
2) 从北京南苑机场出发
● 乘坐出租车,需时约35分钟。
● 在南苑机场候机楼乘坐501路公交车至大营门站下,换乘运通115路公交车至地铁旧宫站下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时30分钟。
2、火车
1) 从北京站出发
● 乘坐出租车,需时约35分钟。
● 乘坐地铁2号线(内)至崇文门站下,换乘地铁5号线至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时10分钟。
2) 从北京西站出发
● 乘坐出租车,需时约50分钟。
● 乘坐地铁7号线至菜市口站下,换乘地铁4号线至角门西下,换乘地铁10号线(外)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时20分钟。
3) 从北京南站出发
● 乘坐出租车,需时约35分钟。
● 乘坐地铁14号线东段至蒲黄榆站下,换乘地铁5号线至宋家庄站下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时。
4) 从北京北站出发
● 乘坐出租车,需时约55分钟。
● 乘坐地铁2号线(外)至崇文门下,换乘地铁5号线至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时20分钟。
3、长途客运
1) 从六里桥站出发
● 乘坐出租车,需时约45分钟。
● 乘地铁10号线(外)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时20分钟。
2) 从莲花池站出发
● 乘坐出租车,需时约45分钟。
● 乘坐运通120路公交车至莲花桥站下,换乘地铁10号线(外)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时30分钟。
3) 从赵公口站出发
● 乘坐出租车,需时约30分钟。
● 乘坐525路公交车至石榴园站下,换乘地铁10号线(外)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时10分钟。
4) 从丽泽站出发
● 乘坐出租车,需时约45分钟。
● 乘坐地铁480路公交车至地铁西局站下,换乘地铁10号线(外)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时30分钟。
5) 从木樨园站出发
● 乘坐出租车,需时约30分钟。
● 乘坐71路公交车至双庙西站下,换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时15分钟。
6) 从八王坟站出发
● 乘坐出租车,需时约30分钟。
● 乘坐地铁1号线至国贸站下,换乘地铁10号线(内)至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时20分钟。
7) 从新发地站出发
● 乘坐出租车,需时约40分钟。
● 乘坐运通115路公交车至地铁旧宫站下,换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时30分钟。
8) 从永定门站出发
● 乘坐出租车,需时约35分钟。
● 乘坐特12外路公交车至蒲芳路西口站下,换乘地铁5号线至宋家庄下,再换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时15分钟。
4、轨道交通
1) 从市中心出发
● 乘坐地铁10号线至宋家庄站换乘地铁亦庄线至荣昌东街(B2口出),需时约1小时。
Abstract Template.doc
11th Applied Optics and Photonics China (AOPC 2022) will be held from 18 to 19 December 2022 online. Participate in AOPC 2022, you will see the latest researches and developments in the field of optics and photonics technologies and applications.
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AOPC2022 Poster Template-80cmx80cm.pptx
