(1)报名方式
无论有无投稿,均欢迎注册参会!
参会者请务必到以下网址进行会议注册: 
网址:https://b2b.csoe.org.cn/registration/YSAOM2023.html
会议费:3650元/人,2023年7月14日前缴费优惠为3450元/人。
学生优惠为2650元/人(不含在职学生),2023年7月14日前缴费优惠为2450元/人。。
会议费包括资料袋、报告文集、会议指南文件、会议杂支、税等,不含论文版面费和住宿费。论文版面费2500元,相同第一作者不超过两篇。
(2)付款方式:
1.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。
2.汇款转账:
开户银行:工行北京科技园支行
户名:中国光学工程学会
账号:0200296409200177730 
汇款时作者请务必注明“姓名+稿件编号”,非作者请注明“YS+姓名”,以便核对。
会议将提供正规会议费发票。
(3)会议注册费退款
注册费会前2周(14天)可退全款,超过2周时间因产生会议成本将不再支持退款。
(4)会议注册费发票
会议注册费发票将在会前两周和会后两周集中处理。
1.Participants must register for the conference at the following website:
Website:
For Chinese Attendee:
https://b2b.csoe.org.cn/registration/YSAOM2023.html 
For Foreign Attendee:
https://b2b.csoe.org.cn/registration/YSAOM2023_en.html 
 
Conference fee: RMB 3,650/pp, and the discount for payment before 14th July, 2023 is RMB 3,450/pp.
The student discount is RMB 2,650/pp (not including on-job students), and the discount for payment before 14th July, 2023 is RMB 2,450/pp.
Conference fees include information kits, report essays, conference guide documents, conference miscellaneous expenses, taxes, etc., excluding paper layout fees and accommodation fees.
2. online payment: After registration, you can jump to the online payment page and select "Alipay" to complete the payment online.
3. Remittance transfer:
Beneficiary,s Name&Address:CHINESE SOCIETY FOR OPTICAL ENGINEERING/NO.1 BLDG HAIYING ROAD FENGTAI DISTRICT BEIJING CHINA
Bene,s A/C No:0200296409200177730
SWIFT CODE:ICBKCNBJBJM
BENEFICIARY BANKER,S NAME:Industrial and Commercial Bank of China Beijing Municipal Branch,Beijing,PRC
When remittance, the author must indicate "name + manuscript number", non-authors please indicate "YS + name" for verification.
The meeting will provide a formal meeting fee invoice.

https://b2b.csoe.org.cn/meeting/YSAOM2023SC.html

2023超精密金刚石车削技术短课程培训
 
制造业是国民经济的主体,是立国之本、兴国之器、强国之基。单点金刚石车削技术(SPDT)作为一种高效率、高精度的光学表面加工方法,可直接生产具有纳米级表面粗糙度和亚微米级形状精度的光学元件,已成为实现多种光学应用最佳的解决方案。本短课程主要针对难加工材料元件的加工技术进行介绍,以单点金刚石超精密机床为载体,结合物理光学、应用光学、材料力学、精密机械、光学设计、光学加工技术以及相关的应用知识等,介绍难加工材料光学元件的超精密可加工材料和面型金刚石加工技术在当下的发展与挑战、机遇和市场需求。以实践应用角度出发,结合加工材料、加工面型、金刚石刀具等方面介绍难加工材料光学元件的超精密金刚石加工技术,超精密切削的特点和加工表面质量影响规律,以及难加工材料元件能场复合超精密加工技术等方面知识,培养国家急需的高端制造行业的工程人才,为我国成为世界制造强国奠定技术应用基础。
一、培训时间:
2023年8月4日9:00-12:00(8:00-9:00签到)
二、培训地点:
深圳登喜路国际大酒店
三、主办单位:
中国光学工程学会
四、承办单位:
中国光学工程学会先进光学制造青年专家委员会
五、课程形式:
授课式,实例解析
六、课程说明:
学员自带电脑,自带Zemax软件,完成培训发放培训证书
七、讲师介绍: 
薛常喜薛常喜,长春理工大学光学工程学科教授,博士生导师,2011年香港理工大学从事博士后研究工作。主要从事光学设计与衍射光学、光学超精密制造技术及其应用方面的研究工作。现中国光学工程学会先进光学制造青年专家委员会副主任委员,全国光学和光子学标准化技术委员会光学材料和元件分技术委员会委员,中国光学学会光学制造技术专业委员会委员,红外与激光工程等期刊青年编委。现主持国家自然科学基金等国家级、省部级高层次科研项目。在国内外学术刊物发表论文50余篇,多篇论文被Spotlight on Optics和Edtior pick。获吉林省自然科技奖三等奖一项,吉林省自然科学学术成果奖二等奖一项,国防科学技术进步奖三等奖一项,兵器集团科技进步二等奖一项,博士学位论文获吉林省优秀博士学位论文。

宗文俊宗文俊,哈尔滨工业大学机电工程学院教授、博士生导师,目前为中国生产工程分会精密工程与微纳技术专业委员会委员、中国机械工程学会高级会员、国际纳米制造学会会员、亚洲精密工程与纳米技术协会会员。近20年来,一直从事天然金刚石刀具与微工具制造技术、可见光-红外宽频谱光学超精密车削技术研究,发表学术论文70余篇,编写专著1部。主持并参与了国家自然科学基金、国防基础科研核科学挑战计划与重点、国家重大科技专项、授权国家发明专利近30项。指导博士生获2020年中国机械工程学会上银优秀博士论文铜奖1人次,荣获机械工业联合会技术发明二等奖、国防科技进步三等奖、兵器工业集团科技进步二等奖等科研奖励。

张建国张建国,博士,华中科技大学机械科学与工程学院副教授,机械工程学科博士生导师,2014年日本名古屋大学获机械工程博士学位。主要研究方向为难加工材料的超精密加工、椭圆振动金刚石切削和功能微纳结构的超精密微细制造。在国家自然科学基金、工信部制造业高质量发展专项课题、科技部重大专项科技计划课题等项目的资助下,围绕先进光学材料超精密制造技术难题,开展面向难加工光学材料的高性能功能表面椭圆振动辅助、原位激光辅助超精密金刚石切削技术研究,探索难加工材料高精度低损伤等超精密制造领域的前沿科学问题。担任中国光学工程学会第一届先进光学制造青年专家委员会委员、Nanotechnology and Precision Engineering杂志青年编委。近五年来,在Precis. Eng., J. Mater. Process. Technol.等制造领域知名期刊发表论文56篇,授权发明专利18项。研究成果获得2019年度中日超精密加工国际会议优秀论文、2015年度日本精密工学会研究奖励、2014年度日本机械学会优秀论文、2011年度日本砥粒加工学会优秀论文。“先进红外光学元件超精密制造关键技术与核心装备”获中国商业联合会科学技术奖特等奖(排6)、“基于AI和机理模型的数控机床精密加工智能优化与控制技术”获中国仪器仪表学会科技进步二等奖(排8)、“能场辅助超精密加工技术与关键装备”获科技部首届颠覆性技术创新大赛优胜奖(排2)。2019年入选湖北省海外高层次人才青年项目,2021年入选华中科技大学学术前沿青年团队(研究方向:场辅助超精密制造研究)。
 
张国庆张国庆,1982年出生,博士毕业于香港理工大学超精密加工技术国家重点实验室,副教授/研究员,深圳市海外/专业高层次人才,深圳大学机械工程学科负责人/工训中心副主任,广东省电磁控制与智能机器人重点实验室副主任、深圳市高性能特种制造重点实验室副主任。中国机械工程学会设计分会委员、中国光学工程学会先进光学制造青年专家委员会委员。主要从事超精密加工工艺与装备、机器人与智能装备等领域研究。主持国家自然科学基金重大项目课题(200万)、国家自然科学基金重大仪器项目专项课题(150万)以及青年基金项目各一项,主持参与省市级项目10余项。发表SCI/EI收录论文70余篇,其中一作/通讯作SCI收录论文40余篇,授权中国发明专利20余项,授权美国发明专利14项;参编Springer出版书籍两部;担任SCI期刊《Shock and Vibration》编委兼学术编辑及JMPT、PE、IJMS等机械制造类多个学术期刊评审专家,获得中国产学研合作促进奖(个人)及创新成果二等奖(排名第一)。
八、超精密金刚石车削技术提纲
第一部分 光学超精密车削技术概论
1.1 超精密加工技术概况
1.2 单点金刚石车削工件中心误差辨识
1.3 快/慢刀辅助车削技术
1.4 超精密飞刀切削加工多层次微纳结构
第二部分 难加工材料光学元件的超精密金刚石切削技术介绍
2.1 典型难加工光学材料及其应用
2.2 超声振动金刚石切削技术简介
2.3 超声振动金刚石切削装置的设计
2.4 难加工材料超声振动切削材料去除机理
2.5 光学功能表面超精密制造及其应用
第三部分 超精密切削的特点和加工表面质量影响规律
3.1 超精密切削的特点
3.2 切削参数对加工表面粗糙度的影响
3.3 金刚石刀具晶向和刀刃质量对加工表面粗糙度的影响
3.4 工件材料特性对加工表面粗糙度的影响

2023光学元件玻璃模压成型技术短课程培训
 
随着高性能光学产品的普及,市场对高精度复杂面型光学玻璃元件的需求日益增长。光学元件玻璃模压成型技术是实现光学玻璃非球面透镜、衍射光学元件、微结构光学元件、自由曲面透镜等复杂面型光学玻璃元件快速成型的关键技术,相比于传统的磨削、抛光等冷加工技术,具有低成本、低污染、效率高和净成形等显著优势,具备优越的发展潜力。该技术的发展促进了复杂面型光学玻璃元件在医疗、安防监控、汽车、激光通信和精密测量等领域的现代光学系统中快速应用,实现了光学系统的小型化、集成化和轻量化,也推动了我国向制造强国、质量强国方向建设。本短课程主要介绍光学元件玻璃模压成型技术的原理、玻璃材料、模具制造、模具表面镀膜、结合有限元仿真的模压工艺优化和模压成型设备等核心技术的研究进展,并讨论当前存在的问题。探讨玻璃模压成型技术在自由曲面、微结构、衍射结构表面和晶圆阵列等光学元件中的应用现状,并对光学玻璃元件精密模压成型技术的发展趋势和挑战进行展望。
一、培训时间:
2022年8月4日13:30-16:30(12:30-13:30签到)
二、培训地点:
深圳登喜路国际大酒店
三、主办单位:
中国光学工程学会
四、承办单位:
中国光学工程学会先进光学制造青年专家委员会
五、课程形式:
授课式,实例解析
六、课程说明:
学员自带电脑,自带Zemax软件,完成培训发放培训证书
七、讲师介绍: 
薛常喜薛常喜,长春理工大学光学工程学科教授,博士生导师,2011年香港理工大学从事博士后研究工作。主要从事光学设计与衍射光学、光学超精密制造技术及其应用方面的研究工作。现中国光学工程学会先进光学制造青年专家委员会副主任委员,全国光学和光子学标准化技术委员会光学材料和元件分技术委员会委员,中国光学学会光学制造技术专业委员会委员,红外与激光工程和应用光学期刊青年编委。现主持国家自然科学基金等国家级、省部级高层次科研项目。在国内外学术刊物发表论文50余篇,多篇论文被Spotlight on Optics和Edtior pick。获吉林省自然科技奖三等奖一项,吉林省自然科学学术成果奖二等奖一项,国防科学技术进步奖三等奖一项,兵器集团科技进步二等奖一项,博士学位论文获吉林省优秀博士学位论文。

周天丰周天丰,北京理工大学教授,博士生导师,特立青年学者,先进加工国防重点学科实验室副主任,海外高层次引进人才,青年973首席科学家,北京市杰青。
主要研究方向包括超精密加工、微纳加工、模具制造、模压成形等。主持国家自然科学基金、北京市自然科学基金、科技部青年973、JW科技委基础加强重点/创新特区、装发重点基金、GF基础科研等项目。
发表SCI论文100余篇,授权国家发明专利70余项,参与编写中英文专著4部。荣获中国机械工业科技进步奖一等奖1项、技术发明奖二等奖1项。

龚峰龚峰,男,1982年4月生,湖南澧县人,博士,教授,博士生导师。深圳市高层次专业人才,南山区领航人才。现任深圳大学机电与控制工程学院副院长,深圳市高性能特种制造重点实验室主任,中国光学工程学会先进光学制造青年专家委员会常务委员,中国兵工学会精密成形工程专业委员会委员,广东省机械工程学会模具与锻压工程分会副秘书长。主要从事先进光学制造工艺与装备、特种塑性成形工艺及理论相关研究。主持国家自然科学基金面上和青年项目、中央军委科技委国防科技创新特区项目、中央军委装备发展部装备预研基金项目、深港联合资助项目等课题。以第一完成人获广东省科技进步二等奖1项,以第一作者或通讯作者发表SCI收录学术论文40余篇,授权中国发明专利10余项。

刘悦刘悦,2022年6月毕业于长春理工大学,博士研究生学历,师从薛常喜教授。2022年10月进入长春理工大学仪器科学与技术博士后科研流动站从事博士后研究工作。截止目前,以第一作者或合作作者的身份在Optics Express、Micromachines、Applied Optics等期刊发表先进光学制造技术方面相关研究型学术论文9篇。其中一篇学术论文被美国光学学会评选为Spotlight on Optics,每一年度大约只有OSA出版论文的1%能得此荣誉。研究成果在优化成型参数、缩短成型周期等方面具有重要意义。
八、光学元件玻璃模压成型技术培训提纲
第一部分 光学元件玻璃模压成型技术简介
1.1 光学元件玻璃模压成型技术的研究进展
1.2 光学元件精密模压设备
1.3 可模压的光学玻璃
1.4 非晶光学玻璃的热力学特性
1.5 模芯材料及适合的镀层
第二部分 非球面光学元件玻璃模压成型技术及案例
2.1 预制体设计
2.2 工艺参数初始设计
2.3 有限元仿真分析及工艺参数优化
2.4 精密玻璃模压实验及结果
第三部分 微结构光学元件模压成形技术
3.1微结构光学元件模压成形技术简介
3.2玻璃特性测试与仿真建模
3.3玻璃模压有限元仿真理论
3.4典型光学器件玻璃模压仿真
3.5典型光学器件模压成形工艺
3.6玻璃模压成形技术应用及展望
第四部分 光学元件玻璃模压成型装备
4.1 红外辐射加热玻璃精密模压成型装备
4.2 桌面级中频感应加热玻璃模压成型装备
4.3 电阻式加热及重力辅助玻璃热压成型装备
4.4 光学玻璃辊对板热压成型装备
 
九、报名人员要求:
基础知识要求:参与培训人员需要经过基本的物理学和光学基础知识训练。名额有限,报名从速。
1000元/人
同时报名两门课程或者同一单位2人以上报名,可以享受9折优惠
1.在线支付:线上报名完成后,可跳转到在线支付页面,选择“支付宝”在线完成支付。
2.汇款转账:
开户银行:工行北京科技园支行
户名:中国光学工程学会
账号:0200296409200177730
费用包含培训、教材、发票、证书和餐费,其他费用自理,开具“培训费”发票
报名网址:https://b2b.csoe.org.cn/registration/YSAOM2023SC.html
十、同期活动:
第八届亚太光学制造会议暨第三届国际先进光学制造青年科学家论坛https://b2b.csoe.org.cn/meeting/YSAOM2023.html
十一、协议酒店:
会议酒店:深圳登喜路国际大酒店(广东省深圳市宝安区宝田一路12号)
十二、联系人:
宁家明  中国光学工程学会
电话:010-83326359
邮箱:ningjiaming@csoe.org.cn 
https://b2b.csoe.org.cn/meeting/YSAOM2023LT.html

Industrialization forum:
Chairs:
REN Mingjun, Shanghai Jiao Tong University
Co-Chairs:
XU Xueke, Shanghai hengyi optics precision machinery co., LTD
XIONG Tao, Hubei Jiuzhiyang Infrared System Co., Ltd
LUO Shaoqin,Hunan Tianchuang Jingong Technology Co., Ltd
SHI Feng, National University of Defense Technology
SHEN Zhengxiang, Tongji University
DAI Bo, shanghai University of Technology
LU Yanjun, Shenzhen University

 ※Precision optical manufacturing
 △Optical materials (glass, optical fiber, ceramic, crystal, etc.)
 △Optical accessories (polishing fluid, polishing glue, polishing leather, grinding head, grinding wheel, etc.)
 △Optical components (planar, spherical-aspherical, free-form surfaces, prisms, cylindrical mirrors, micro lenses, injection and molded components, etc.)
 △Optical precision processing and testing equipment (fast polishing machine, milling machine, classical polishing machine, CNC polishing machine, robotic polishing, precision lathe, semiconductor wafer processing equipment; three coordinates, profiler, interference detector, sphere diameter meter, defect Disease instrument, stress instrument, etc.))
 △Extreme manufacturing technology (micro-nano processing, super surface-super structure, special processing, etc.)
 △Other
 ※Optical thin film technology and equipment
 △Coating materials (film materials, coating accessories, etc.)
 △Optical coating elements (reflective elements, windows, polarizers, filters, attenuators, etc.)
 △Grating (coating, exposure, etching, etc.)
 △Coating machine (electron beam, ion beam, sputtering, etc.);
 △Related testing equipment (spectrophotometer, spectrometer, step meter, thickness gauge)
 △Other
 ※Optical machine, lens and optical module
 △Precision lens (mobile phone, car, infrared night vision, etc.)
 △Telescopes, microscopes, optical analysis instruments, etc.
 △CCD, CMOS, optical chip, etc.
 △Optical platform, adjustment frame, electric stage, etc.
 △Precision assembly technology
 △Optical design, optomechanical integration
 △Other
 ※Laboratory equipment
 △Material mechanical properties test equipment
 △Non-destructive testing instruments, analytical testing instruments, measuring instruments and equipment
 △Software, laboratory information management system, etc.
 △Environmental monitoring equipment
 △Instrument accessories and parts
 △Technology and products of supporting enterprises
 △Otherr
Sponsorship:    赞助方案.pdf


会议酒店:
深圳登喜路国际大酒店,深圳市宝安区宝田一路12号(流塘派出所对面)
联系人:朱经理18128818186,房型:单早双早500元/天
Recommended Hotel:
Conference hotel:DAYHELLO INTERNATIonAL HOTEL
Hotel address:No.12 Baotian 1st Road, Bao'an District,Shenzhen
Contacts:Julia ZhuSenior Sales Manager +86-181 2881 8186
Room type:Double  room /Twin room: ¥500 Net  including breakfast
微信图片_20230221144626

 Abstract Submission: https://b2b.csoe.org.cn/submission/YSAOM2023.html
 
Please submit a 500-800 words abstract in English for technical review purposes that is suitable for publication. If accepted, the contact author will receive notification of acceptance by email. Before you submit the abstract and the manuscript, Please refer to the following examples.
 
Abstract Submission Deadline: 17 July, 2023(Final Round)
 
Supported Journals:
PhotoniX(SCI)、Light:Science & Applications(SCI)、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)、International Journal of Extreme Manufacturing(ESCI、Ei)、Micromachines(SCIE)《红外与激光工程》(Ei)、《液晶与显示》(ESCI)、《中国光学》(ESCI、Ei)、《光子学报》(ESCI、Ei)、《发光学报》(Ei)、《光学精密工程》(Ei)、SPIE Proceedings(Ei)、Nanomanufacturing and Metrology (Ei)、Light: Advanced Manufacturing(DOAJ)、eLight、《光电工程》、《航天返回与遥感》etc.

Abstract template:   Author_abstract template YSAOM2023.doc
Poster template(80cm*90CM):    Poster Template.pptx
SPIE Manuscript Submission link:https://spie.org/submissions/submit/overview.aspx?EventId=2687680 
SPIE Manuscript Submission Deadline:31st August 2023
SPIE Manuscript Specifications_4 to 6 page papers     SPIE-Manuscript-Specifications_4-to-6-page-papers.doc
SPIE Editor:Alphonsa, Rennie  Rennie.Alphonsa@spie.org 
SPIE Proceedings:链接:https://pan.baidu.com/s/1eXlWPcI2Iu0wOP-ACQy1cA 
提取码:ajzk 
--来自百度网盘

※Topic 1:Large optical mirror and telescope technology
The topic is intended to reflect the latest progress in the technology and equipment of large optical mirrors and telescopes, including but not be limited to: scientific objective observation and optical engineering technology, optical optimization design of large lightweight mirrors, advanced optics and structural materials, high-precision and high-stability mirrors and structural support technology, measurement and control technology of segmented synthetic aperture optical system, integrated design of large photoelectric instruments, active optics and adaptive optics technology, giant tracking structure and its high-precision stability control technology, space and earth consistency technology of telescope, precision assembly technology of large photoelectric instruments, complex optical mirrors and systems test and measurement technology, high performance and intelligent manufacturing technology of large optical mirrors.
Chair:
XUE Donglin, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
Co-Chairs:
Chen,Wei-Jun,Zeiss Group
FAN Bin, Institute of Optics and Electronics, CAS
WANG Yonggang, Beijing Institute of Space Mechanics & Electricity
Program Committee:
NIU Zhenqi, Shanghai Institute of Optics and Fine Mechanics, CAS
WANG Hu, Xi'an Institute of Optics and Precision Mechanics, CAS
WANG Wei, Fudan University
WANG Wei, National Astronomical Observatories, CAS
YUAN Qun, Nanjing University of Science and Technology
ZHANG Junping, Nanjing Institute of Astronomical Optics & Technology, National Astronomical Observatories, CAS
Topic Secretary:
LI Longxiang, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
 
※Topic 2:Micro-nanostructure optics and manufacturing technologies
This topic intends to reflect the latest progress in micro-nanostructure optics and manufacturing technologies, which will focus on (not limited to): new manufacturing technologies of micro-nanostructure optics  and microelectronic integrated devices,high-efficiency sub-wavelength structural manufacturing methods, new mechanisms and methods of super-resolution/super-diffraction manufacturing, new manufacturing technologies of short/ultra-short laser pulses,  optical super-resolution additive/subtractive manufacturing technologies and applications, optical performance evaluation methods of micro-nano manufacturing and their matched optical high-precision detection technologies and etc.
Chair:
GAO Ping, Institute of Optoelectronic Technology, CAS
Co-Chair:
CHEN Qidai, Jilin University
DUAN Huigao, Hunan University
Saulius Juodkazis, Swinburne University of Technology, Australia
XIAO Shumin, Harbin Institute of Technology, Shenzhen
XU Ting, Nanjing University
Program Committee:
YUE Weisheng, Institute of Optoelectronic Technology, CAS
XU Shaolin, Southern University of Science and Technology
LIANG Yuzhang, Dalian University of Technology
ZOU Yi, ShanghaiTech University
TANG Dongliang, Hunan University
Topic Secretary:
LI Taibei, Institute of Optoelectronic Technology, CAS
 
※Topic 3: Ultra-precision machining technology for optical complex surfaces and functional structures
This topic intends to reflect the latest developments in ultra-precision machining technology for optical complex surfaces and functional structures, including but not limited to: ultra-precision turning, milling, grinding, polishing and other processes, laser 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, machining path planning and optimization, process chain process modeling and simulation, materials removal mechanism, surface full-frequency error analysis and control, machining and testing integration, etc.
Chair:
KONG Lingbao, Fudan University
Co-Chairs:
GUAN Chaoliang, National University of Defense Technology
Xichun Luo, University of Strathclyde, UK
WEI Chaoyang, Shanghai Institute of Optics and Fine Mechanics, CAS
ZHANG Zhiyu, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
Program Committee:
CAO Zhongchen, Tianjin University
HU Hao, National University of Defense Technology
LI Duo, Harbin Institute of Technology
LI Jiasheng, Institute of Mechanical Manufacturing Technology, Chinese Academy of Engineering Physics
XIAO Huapan, Hong Kong Polytechnic University
YAO Yongsheng, Xi'an Institute of Optics and Precision Mechanics, CAS
ZHANG Yunfei, Institute of Mechanical Manufacturing Technology, CAEP
ZHAO Zejia, Shenzhen University
ZHOU Ping, Dalian University of Technology
Topic Secretary:
WANG Shixiang, Fudan University
 
※Topic 4:Ultra-precision optical measurement technology and equipment
This topic intends to reflect the latest developments in optical 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, measurement methods of optical components geometric parameters and physics characteristic, 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 testing and measuring principles, new optical measurement instruments and equipment, new instrument theory and design methods, micro-nano testing and measuring methods, extremely small sizes Optical measurement methods, vision measurement technology, etc.
Chair:
YANG Shuming, Xi’an Jiaotong University
Co-Chairs:
CHEN Shanyong, National University of Defense Technology
LI Wenhao, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
LU Zhengang, Harbin Institute of Technology
ZHAO Chenyang, Harbin Institute of Technology, Shenzhen
Program Committee:
CHEN Xiuguo, Huazhong University of Science and Technology
HU Pengcheng, Harbin Institute of Technology
HU Yao, Beijing Institute of Technology 
SHEN Hua, Nanjing University of Science and Technology
TAN Yidong, Tsinghua University
WANG Yun, Beijing Institute of Technology 
WU Guanhao, Tsinghua University
YU Yiting, Northwestern Polytechnical University
ZHANG Xiaodong, Tianjin University
WANG Jian, Huazhong University of Science and Technology
Topic Secretary:
ZHANG Guofeng, Xi'an Jiaotong University
 
※Topic 5:High-performance manufacturing technology for short-wavelength optical components
This topic intends to reflect the latest developments high-performance optical system manufacturing technology, including but not limited to:  manufacture of ultraviolet, X-ray and other short-wavelength optical components, manufacture of lightweight optical systems, anti-damage manufacturing of high-energy laser components, processing and testing technology of glancing incidence optical components, detection and evaluation technology for ultra - precision optical components, etc.
Chair:
PENG Xiaoqiang, National University of Defense Technology
Co-Chairs:
LI Ming, Institute of High Energy Physics, CAS
KANG Chengwei, Xi’an Jiaotong University
Kazuya Yamamura, Osaka University
Program Committee:
DENG Weijie, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
DONG Long, Beijing Institute of Space Mechanics & Electricity
GAO Shang, Dalian University of Technology
LI Yueming, Beijing Institute of Control Engineering
LIANG Fusheng, Soochow University
WAN Songlin, Shanghai Institute of Optics and Fine Mechanics, CAS
WU Yongqian, Institute of Optoelectronic Technology, CAS
Topic Secretary:
XUE Shuai, National University of Defense Technology
 
※Topic 6:High-efficiency optical precision processing technologies and new methods
This topic intends to reflect the latest developments in ultra-precision optical precision processing of new processes, new technologies and new methods, including but not limited to: ultra-precision machining technology of single point diamond in optical ultra-precision machining technology,magneto-rhelogical finishing  technology, ion beam machining  technology, numerical control  grinding and polishing technology, glass molding technology, the efficient implementation approach, method and process optimization of injection molding technology, and the feasibility of optical manufacturing technology in the optical design process, put forward new processes, new materials, new methods, new ideas and new concepts, realize innovative and efficient advanced manufacturing technology of precision optics, such as complex surfaces, metal optics, hard-machined material optics, and realize the optimization of new processes, new technologies, new methods and technological approaches for efficient precision manufacturing technology, and promote the efficiency and process optimization of optical precision processing technology.
Chair:
WANG Xiaokun, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
Co-Chairs:
Daewook Kim, University of Arizona
WU Rengmao, Zhejiang University
XUE Changxi, Changchun University of Science and Technology
YU Qinghua, Shanghai Institute of Technical Physics of CAS
Program Committee:
BAI Yang, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
MA Donglin, Huazhong University of Science and Technology
MAO Xianglong, Xi'an Institute of Optics and Precision Mechanics, CAS
Yunfeng Nie, Vrije Universiteit Brussel
SHI Feng, National University of Defense Technology
SUN Guoyan, Xi'an Institute of Optics and Precision Mechanics, CAS
XING Yintian, The Hong Kong Polytechnic University
YANG Xiaofei, Soochow University
YANG Tong, Beijing Institute of Technology
Topic Secretary:
YANG Chao, Changchun University of Science and Technology
 
 
※Topic 7:High-performance optical microstructure manufacturing process and equipments
This topic intends to reflect the latest progress in High-performance optical microstructure manufacturing process and equipments, including but not limited to: high-performance optical microstructure ultra-precision processing technology for optical microarray structures with size characteristics of tens to hundreds of microns, high-performance optical microstructure conformal polishing technology, optical microstructure efficient and ultra-low damage processing technology, optical microstructure rapid and high-precision integrated in-situ detection technology, microstructure optical component performance evaluation technology, Large-scale microstructure, high-precision rapid manufacturing technology, etc.
Chair:
GUO Jiang, Dalian University of Technology
Co-Chairs:
WANG Chunjin, The Hong Kong Polytechnic University
ZHU Wule, Zhejiang University
Program Committee:
HOU Xi, Institute of Optoelectronic Technology, CAS
Tong, Zhen, University of Huddersfield
TIAN Yebing, Shandong University of Technology
WANG Zhenzhong, Xiamen University
YU Nan, University of Edinburgh
ZHU Wule, Zhejiang University
Topic Secretary:
LI Linguang, Dalian University of Technology
 
※Topic 8: Advanced technology and equipment of optical coatings
This topic intends to reflect the latest developments in optical coating materials, design, preparation and characterization technologies and the applications results of major projects. The focus includes but not limited to: new optical coating materials covering the optical spectrum from X-ray to far-infrared, and nanostructure coating materials; high-performance optical coating design and manufacturing technology represented by X-ray, laser and infrared typical optical spectrum, multi-functional surface film design and manufacturing technology, multifunctional optical coating design and manufacturing technology (light, heat, force, Electricity); Characterization technology of optical coatings for application requirements, such as ultra-wide spectrum optical constant characterization technology, low loss optical coating performance testing technology, special environmental optical coating performance evaluation and testing methods, etc.; Latest progress of optical coating manufacturing equipment and testing instruments, etc.
Chair:
LIU Huasong, Tianjin Jinhang Institute of Technical Physics
Co-Chair:
CHENG Xinbin, Tongji University
Sven Schroder, IOF Franhofer, Germany
Program Committee:
FU Xiuhua, Changchun University of Science and Technology
HE Wenyan, Institute of Optics and Electronics, CAS
SHAO Yuchuan, Shanghai Institute of Optics and Fine Mechanics, CAS
SHEN Weidong, Zhejiang University
WANG Xiaoyi, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
WANG Yang, Guangchi Technology (Shanghai) Co., Ltd
WEI Yaowei, Laser fusion research center
Topic Secretary:
WANG Lishuan, Tianjin Jinhang Institute of Technical Physics
 
※Topic 9:Optical design, assembly and system modeling technology
This topic intends to reflect the latest research development of optical design, assembly and system integration test, digitization and systematic engineering simulation in optical field, the focus includes but not limited to: new optical systems, new spectral imagers, new precision metrology and laser measurement instruments, aerospace optical remote sensing systems, laser detection and lidar products and other optical design and simulation, optical stray light simulation and suppression design, optical system installation and performance evaluation technology, complex optical system installation and testing technology, spatial complex focal plane splicing and registration testing technology Internal orientation element and distortion testing technology, stress-free gluing and stress-free assembly technology; Model-driven optical system engineering, engineering basic database, core theory and algorithm model, virtual manufacturing system, digital twinning technology, optical modeling and accuracy analysis, optical software system engineering, complex optical system algorithm optimization scheme, optical manufacturing equipment test and control system, optical system performance analysis and application evaluation, etc. 
Chair:
ZHANG Jiyou, Zhejiang Dali Technology Co., Ltd
Co-Chairs:
JI Shijun, Jilin University
MA Zhen, Xi'an Institute of Optics and Precision Mechanics, CAS
Program Committee:
CAI Jun, Innolite Ultra Precision (Shanghai) Co.,Ltd.  
FAN Cheng, Soochow University
HAN Yanjun, Southwest Jiaotong University
LI Xinyao, Shanghai Institute of Technical Physics, CAS
YOU Fangyi, Huaqiao University
WANG Dongjie, Beijing Institute of Space Mechanics & Electricity
ZHAO Jun, Zhejiang University of Technology
GU Tianqi, Fuzhou University
Dawei Tang, University of Huddersfield, UK
Topic Secretary:
ZHANG Wang, Jilin University
 
※Topic 10: Manufacturing and applications of optofluidic chip and liquid crystal optics
This topic intends to reflect the latest developments in manufacturing and applications of optofluidic chip and liquid crystal optics, the focus includes but not limited to:  discussing the research progress of using microfluidic technology and liquid crystal 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 liquid crystal Liquid crystal, 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.
Chair:
ZHANG Dawei, University of Shanghai for Science and Technology
Co-Chairs:
Francis Lin, University of Manitoba, Canada
YANG Yi, Wuhan University
ZHANG Xuming, The Hong Kong Polytechnic University
ZHENG Zhigang, East China University of Science and Technology
Program Committee:
GONG Yuan, University of Electronic Science and Technology of China
HU Wei, Nanjing University
LIU Yanjun, Southern University of Science and Technology
MU Quanquan, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
SHUI Lingling, South China Normal University
WANG Guanghui, Nanjing University
WU Jiandong, Shenzhen Institute of Advanced Technology, CAS
Topic Secretary:
WANG Qi, University of Shanghai for Science and Technology
 
※Topic X: Flexible photoelectric materials and intelligent sensing
This topic intends to reflect the latest development of manufacturing and application of flexible photoelectric sensor,  focusing on including but not limited to: laser processing of flexible surface components, laser-induced graphene(LIG) sensor, manufacturing and integration of flexible sensing components, testing and development of flexible photoelectric, pressure and other sensing components; flexible sensor applications for active health monitoring; An ubiquitous health monitoring unmanned system based on flexible sensors.
Chair:
ZANG Jianfeng, Huazhong University of Science and Technology
Co-Chairs:
GUO Chuanfei, Southern University of Science and Technology
Lei Wei, Nanyang Technological University
ZHANG Xi, Shenzhen University
Program Committee:
LI Hui, Shenzhen University
LIN Qijing, Xi'an Jiaotong University
XIE Yingxi, South China University of Technology
XU Kaichen, Zhejiang University
ZHANG Xiaohui, Xi'an Jiaotong University
Topic Secretary:
WEN Bo, Shenzhen University
 
※Topic Y: Intelligent Industrial Vision Inspection and Equipment
This topic intends to reflect the latest advances in intelligent industrial vision inspection and equipment,including but not limited to: imaging technology, optical inspection technology, multi-modal vision sensor,and high-dimensional vision sensor;image processing, computer vision,and deep learning for industrial applications; intelligent inspection system with cloud-edge-device collaboration, intelligent inspection system with human-machine collaboration, and intelligent inspection system capable of self-learning; wafer inspection equipment, free-form optical surface inspection equipment, micro- and nano- optical device inspection equipment, and lithium battery inspection equipment etc.
Chair:
TIAN Yibin, Shenzhen University
Co-Chairs:
LIU Dong, Zhejiang University
LIU Cheng, Shanghai Institute of Optics and Fine Mechanics, CAS
Zhimin Shi, meta Reality Labs,US
WANG Qian, Huawei Advanced Manufacturing Lab
Program Committee:
LI Chen, CRRC Zhuzhou Institute Co., Ltd
Bo Mu, OminiVision
WANG Xingzheng, Shenzhen University
ZENG Zhi, Chongqing Normal University
ZHANG Jianguo, Southern University of Science and Technology
Topic Secretary:
YU Sai, Huawei Advanced Manufacturing Lab

   Conference Schedule议程总表(8.1).pdf

SPIE Proceedings:链接:https://pan.baidu.com/s/1eXlWPcI2Iu0wOP-ACQy1cA 
提取码:ajzk 
--来自百度网盘

Aerospace, space observation, nano-lithography, synchrotron radiation, high-end optical measuring instruments and many other fields propose the urgent demand on advanced optical manufacturing technology. Advanced optical manufacturing technology is developing towards optical intelligent manufacturing, showing a trend of multidisciplinary collaborative development such as ultra-precision manufacturing, precision measurement, intelligent sensing and control, and material science.
The 8th Asia Pacific Conference on Optics Manufacture(APCOM2023)& 3rd International Forum of Young Scientists on Advanced Optical Manufacturing(YSAOM2023)will be held in Shenzhen, China in 4th-6th, August 2023 by Chinese Society for Optical Engineering(CSOE), aiming at building an industry-university-research platform from the application side to the technology side. The conference focuses on the latest development of advanced optical manufacturing technologies and equipments, invites senior experts in related fields as well as young and middle-aged experts to make speeches, and provides a platform for cooperation and exchange for related practitioners and graduate students.
The accepted papers are published in SPIE International Conference Proceedings Sequence and its digital library, indexed by EI core search, and some excellent papers are indexed by SCI. At the same time, many domestic high-quality optical journals participate in the full-text collection of this conference. Activities include conference, exhibition, training and other forms.
Highlights:
※International Conference includes expert talks (invited or applied), oral speeches, posters, excellent student paper selection (certificate issuance), paper publication, etc. 
Exhibition includes product exhibition, university-enterprise matchmaking meeting, institute-enterprise matchmaking meeting, investment and other activities.
※Short courses and workshops provide relevant practitioners with technical and skill training such as case analysis, concept explanation and skill training.
※Industrialization Forum focuses on significant applications and key technologies in the field of optics, and invites representative enterprises and universities to discuss hot topics such as product demands and technical breakthrough.
※Visit: Local enterprises and universities welsome participants voluntarily sign up for visits.

 LV Zichen(CSOE)
lvzichen@csoe.org.cn,13810226340

登喜路国际大酒店交通信息
微信图片_20230221144651

具体地址:深圳市宝安区宝田一路12号(流塘派出所对面)
开车前往:酒店有提供免费停车位
地铁站:12号线宝田一路站C出口即达
宝安机场:距离酒店10公里,15分钟车程,出租车大约40元左右,也可坐地铁12号线,到宝田一路站,
深圳北站:距离酒店20公里,30分钟车程,出租车大约70元。地铁路线为深圳北站5号线到灵芝站换成12号线,宝田一路站C出口,车程30分钟左右
高速出口:距离京港澳高速宝安出口800米3分钟车程,距离沿江高速宝安出口4公里,10分钟车程

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※Plenary Speakers:
Alexander Slocum, Massachusetts Institute of Technology, USA——Rapid Efficient Design of Next Generation High Precision Machines
Liangchi Zhang, Southern University of Science and Technology, China——High-precision manufacturing of functional optical lenses and a on the possible damage-free fabrication of KDP optical crystal surfaces
Benny C.F. Cheung, The Hong Kong Polytechnic University, Hong Kong, China——Ultra-precision Machining Technology with Applications in Optometry Industry
TANG Yong, Shenzhen University——High-Performance Manufacturing of Functional Structures of Semiconductor Optoelectronic Devices
WANG Xiaoyong, Beijing Institute of Space Mechanics & Electricity, China——Ultra precision machining technology for aerospace optical components
 
Topic 1:Large optical mirror and telescope technology
Guoyu Yu, University of Huddersfield——Ultra-Precision Manufacturing: From Aspherical to Ture Freeform Surfaces Keynote
LI Longxiang, Changchun Institute of Optics, Fine Mechanics and Physics,CAS——Optical Manufacturing Technology based on Robot Invited
E Kewei, Xi'an Institute of Optics and Precision Mechanics, CAS——Optical Testing Activities for AIMS Solar Telescope Invited
JIAO Changjun, CAS Nanjing Astronomical Instruments Co.,LTD——Digital manufacturing technology for large-aperture optical systems Invited
CHENG Shaoyuan, Beijing Institute of Space Mechanics & Electricity——TBD Invited
WANG Liang, Nanjing Institute of Astronomical Optics & Technology,CAS——CHORUS-A high-resolution Ultra-stable Spectrograph for Spanish GTC Telescope Invited
YANG Qiujie, Shanghai Institute of Technical Physics,CAS——Image and Spectrum Cooperative Detection Technology and Application Invited

Topic 2:Micro-nanostructure optics and manufacturing technologies
DUAN Huigao, Hunan University——TBD Keynote
XIONG Wei, Huazhong University of Science and Technology——TBD Invited
WANG Wenjun, Xi’an Jiaotong University——TBD Invited
FANG Yurui, Dalian University of Technology——TBD Invited
SHI Liping, Xidian University——TBD Invited
XIN Chen, The Chinese University of Hong Kong——TBD
WEI Heming, Shanghai University——Inverse design and two-photon polymeriztion microfabrication of micro- and nano photonic devices
GAO Hui, Huazhong University of Science and Technology——TBD
JI Ran, QINGDAO GERMANLITHO CO., LTD.——Application and Prospect of Nanoimprint Lithography Technology

Topic 3: Ultra-precision machining technology for optical complex surfaces and functional structures
ZHAO Qingliang, Harbin Institute of Technology——Ultra-Precision Grinding of High-Aspect-Ratio Optical Components Keynote
HUANG Qiushi, Tongji University——High precision manufacture and metrology of grazing incidence X-ray mirrors Keynote
ZONG Wenjun, Harbin Institute of Technology——A modified diamond micro chiseling method for machining retroreflective microstructure mold on nickel phosphorus alloy Invited
YAO Yongsheng, Xi'an Institute of Optics and Precision Mechanics CAS——Multi-robot collaborative processing of large aperture aspheric mirror Invited
SUN Guoyan, Xi'an Institute of Optics and Precision Mechanics CAS——Hybrid-processing technology of laser and grinding for hard and brittle optical components Invited
ZHANG Quanli, Nanjing University of Aeronautics and Astronautics——Pulse laser ablation mechanism and fabrication of diamond surface micro-structures Invited
XIAO Huapan, The Hong Kong Polytechnic University——Subsurface damage prediction model and its application for abrasive machining of brittle optical materials Invited
YE Xin, Research Center of Laser Fusion CAEP——Nanofabrication technology of sub-wavelength structure on optical component surfaces Invited
Lenny Yip, The Hong Kong Polytechnic University——Magnetic field Assisted ultra-precision machining for titanium alloys Invited
LI Changsheng
, Xi’an Jiaotong University——Fabrication of diamond micro-grinding tools using multi-energy field and grinding of micro-structured optical elements
JIANG Xiangmin, Xi'an Institute of Optics and Precision Mechanics CAS——Research on Ultra-smooth Polishing Process of Optical Surface based on Hydrodynamic Polishing
ZHANG Yun, Institute of Optics and Electronics, CAS——The full frequency band error control technologies of large departure aspherics
YANG Gao, Shenzhen University——Forming mechanism of glass micro/nanostructures in hot embossing and the shape control
WANG Jinyu, Chongqing Institute of Green and Intelligent Technology, CAS——自由曲面光学元件非接触在位测量与误差补偿系统

※Topic 4:Ultra-precision optical measurement technology and equipment
Feng Gao, University of Huddersfield——TBD Keynote
ZHANG Zonghua, Hebei University of Technology——Aided imaging phase measuring deflectometry based on concave mirror focusing Keynote
HU Yao, Beijing Institute of Technolgoy——Measurement technology for large aspect-ratio micro-nano structure with large field of view Invited
YANG Chen,ZJU-Hangzhou Global Scientific and Technological Innovation Center——High-Speed Atomic Force Microscopy: Instrumentation and Applications Invited
SHI Yushu, National Institute of Metrology of China——National Traceability and Transmission System for Micro/Nano Geometric Values Invited
ZHU Jinlong, Huazhong University of Science and Technology——The underlying physics in optical patterned wafer defect inspection at advanced nodes Invited
ZHAO Chenyang, Harbin Institute of Technology(Shenzhen)——TBD Invited
QUAN Haiyang, Institute of Optics and Electronics, CAS——Absolute wavefront test of high rosolution optics and uncertainty evaluation Invited
HU Chunguang, Depth measurement of high aspect ratio micro structures using interferometric spectroscopy Invited
 
Topic 5:High-performance manufacturing technology for short-wavelength optical components
DONG Xiaohao, Shanghai Advanced Research Institute(SARI), Chinese academic sciences(CAS)——Optics for the beamlines of the SHINE (Shanghai High Repetition Rate XFEL and Extreme Light Facility) Keynote
LI Yueming, Beijing Institute of Control Engineering——Ultra-precision Manufacturing Technologies and Applications of Grazing Incidence Focused X-ray Optics Keynote
HU Haixiang, Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences——Spatial frequency response issues in picometer-precision advanced manufacturing technology Invited
SUN Rongyan, Osaka University——Damage-free figuring of reaction-sintered silicon carbide by plasma chemical vaporization machining Invited
LI Ming/LIU Fang, Institute of High Energy Physics,CAS——北京新一代同步辐射光学技术挑战和应对进展 Invited
WAN Songlin, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences——面向短波长光学元件的机器人超精密制造技术 Invited
XUE Shuai, National University of Defense Technology——Research progress on fabrication and test technology ofsub-microradians accuracy for X-ray reflectors Invited
YANG Xu, Xi'an Jiaotong University——lurryless electrochemical mechanical polishing of single-crystal silicon carbide
LI Zhen, Southern University of Science and Technology——On the deformation mechanisms of monocrystalline silicon under nano-surfacing
 
Topic 6:High-efficiency optical precision processing technologies and new methods
GUO Bing, Harbin Institute of Technology——The robotic rotation revolution belt grinding technology for optics on hard-brittle materials Keynote
MA Yaoguang, Zhejiang University——Optical spectra shaping in optical micro/nano fiber systems Keynote
LIU Quan, Zhejiang Sunny Optics CO. LTD.——Application of Aspheric Surface Testing Techniques in the Production of Consumer Optical Lenses Invited
CHENG Qiang, Changchun Institute of Optics, Fine Mechanics and Physics, CAS——Complex optical surfaces testing and alignment based on computer generated hologram Invited
LIU Guogan, Shanghai Modern Advanced Ultra-Precision Engineering Company——Study on Cordierite Polishing Technology Invited
WANG Jinhu, Zhejiang University of Technology——High-efficiency and precision polishing method based on shear rheological effect and its application Invited
TAN Zhongqi, National University of Defense Technology——Research on low-damage polishing technology of sub-nanometer roughness diamond surface Invited
WU Zhonghua, Nanjing Institute of Astronomical Optics & Technology, National Astronomical Observatories, CAS——Key Technologies of Off-axis Aspherical Surface with Fast Focal Ratio and Extremely Large Asphericity Invited
Yunfeng Nie, Vrije Universiteit Brussel——Freeform optical system design based on unsupervised learning Invited

Topic 7:High-performance optical microstructure manufacturing process and equipments
GUO Jiang, Dalian University of Technology——微细结构元件制造技术及其应用 Keynote
LI Kenan, State Key Laboratory of Superabrasives, Zhengzhou Research Institute for Abrasives & Grinding Co. Ltd, China——功能微结构精密磨削用金刚石仿形磨具关键技术与应用 Keynote
YAO Peng, Shandong University——Tool path planning and profile error compensation in ultra-precision machining of micro lens array Invited
TIAN Yebing, Shandong University of Technology——难加工材料“高剪低压”磨削技术研究进展 Invited
CAI Xiaojiang, Shanghai Aerospace Control Technology Institute——Microstructure ultra-precision machining technology for high-performance optoelectronic payloads Invited
WANG Chunjin, The Hong Kong Polytechnic University——Maskless fluid jet polishing of functional structured surfaces Invited
DENG Hui, Southern University of Science and Technology——基于等离子体原子迁移原理的微透镜阵列调形制造技术
ZHANG Jianguo, Huazhong University of Science and Technology——椭圆振动金刚石微细切削技术研究
LU Yanjun, Shenzhen University——微结构精密磨削技术及其应用研究

Topic 8: Advanced technology and equipment of optical coatings
LI Gang, Dalian Institute of Chemical Physics, CAS——Recent progress on high quality optical components applied in high power laser Keynote
ZHANG Jinlong, Tongji University——Monitoring technology for deposition of optical coatings Keynote
YANG Lei, Harbin Institude of technology——Preparation and Applications of Infrared Transparent Conductive Films Invited
WANG Yanzhi, Shanghai Institute of Optics and Fine Mechanics, CAS——Study on performance of broadband high damage threshold laser coatings Invited
CHEN Jian, ZC Optoelectronic Technologies, Ltd——Photothermal Characterization of absorption properties for DUV optics Invited
WANG Yanchao, Changchun Institute of Optics, Fine Mechanics and Physics, CAS——Research on The Large Aperture High Reflective Film based on Motion Magnetron sputtering Deposition Invited
LUO Zhenfei, Laser fusion research center, CAEP——Enhanced aluminum-based Lyman-ultraviolet reflective coatings prepared by e-beam evaporation Invited
AI Wanjun, Institute of Optics and Electronics, CAS——Deposition Technology of High-quality Large Size Coatings
LIN Zhaowen, Zhongshan institute of changchun University of Science and Technology——The Reach of High Gradient UV Filter
ZHANG Fei, Laser fusion research center, CAEP——Study on Low Absorption Coating of Visible and Infrared Multispectral Band Optical Windows

※Topic 9:Optical design, assembly and system modeling technology
PENG Yunfeng, Xiamen University——TBD Keynote 
YOU Fangyi, Huaqiao University——Ajdjusting the digital model of laser claddding process by measuring the temperature field Keynote
HUANG Yang, Beijing Institute of Space Mechanics & Electricity——A Residual Wavefront Aberrations Correction Technology for Refractive Lenses Invited
LIU Yanli, Beijing Institute of Space Mechanics & Electricity——全谱段计算光谱成像系统设计与装调技术 Invited
Dawei Tang, University of Huddersfield, UK——In-line optical surface metrology for advanced manufacturing Invited
WU Yongjian, Beijing Institute of Space Mechanics & Electricity——TBD Invited
GU Tianqi, Fuzhou University——The evaluation methods of topography  parameters of complex surface 
FAN Cheng, Soochow University——Material removal mechanism in and experiments of electrorheological polishing of foldable intraocular lenses at low temperatures
HAN Yanjun, Southwest Jiaotong University——新型脉动气射流掩膜制备微结构表面完整性研究
 
Topic 10: Manufacturing and applications of optofluidic chip and liquid crystal optics
YANG Yi, Wuhan University——Research on optofluidic chips in biomedical sensing detection Invited
DAI Bo, University of Shanghai for Science and Technology——Microfluidics assisted 3D printing technique for fabricating compound eye Invited
ZHENG Zhigang, East China University of Science and Technology——TBD Invited
ZHAO Rui, Nanjing University of Posts and Telecommunications——Electrowetting-based droplet manipulation technology and its application in optofluidic devices Invited
ZHAO Haitao, Northwestern Polytechnical University——Critical-locked mechanical metamaterials for hypersensitive biomolecule detection Invited
AI Ye, Singapore University of Technology and Design——TBD Invited
SHAO Liyang, Southern University of Science and Technology——Intelligent Fiber Optic Integrated Sensing and Communication Technology and Application Invited

Topic X: Flexible photoelectric materials and intelligent sensing
Lei Wei, Nanyang Technological University——Advanced Intelligent Fibers Keynote
GUO Chuanfei, Southern University of Science and Technology——Highly sensitive flexible pressure senors for biomedical applications and robotics Keynote
ZANG Jianfeng, Research Institute of Huazhong University of Science and Technology in Shenzhen——Magnetic Soft Robots for Biomedical Applications Invited
ZHANG Chi, Beijing Institute of Nanoenergy and Nanosystems,CAS——Tribotronics for Intelligent Bionic Tactile Sensing Invited
LIN Qijing, Xi’an Jiaotong University——High temperature resistant optical fiber sensors and their applications Invited
ZHANG Xiaohui, Xi’an Jiaotong University——Magnetic-based flexible strain sensors for human health monitoring Invited
LI Guoqiang, Southwest University of Science and Technology——Femtosecond laser micro nano fabrication of biomimetic functional surfaces
XIE Yingxi, South China University of Technology——Laser-induced biomimetic structure graphene flexible sensors
LI Hui, Shenzhen University——Research on Printing Technology for Triboelectric Sensor
ZHANG Xi, Shenzhen University——A Health Monitoring System based on Carbon Nanofilm Sensors
WEN Bo, Shenzhen University——Deep Learning-Enabled Acoustic Sensor

Topic Y: Intelligent Industrial Vision Inspection and Equipment
LI Bing, Xi’an Jiaotong University——Industrial visual Inspection: Sparse Inpainting Network for Anomaly Detection and Localization Keynote
LI Chen, CRRC ZHUZHOU INSTITUE CO., LTD.——Research about Bottom-of-Train Fault Detection Method based on Diffusion Model Invited
LIU Dong, Zhejiang University——Defect Detection for Large Optical Components Invited
QU Yanyun, Xiamen University——大规模2D/3D图像语义分割 Invited
LI Xinghui, Tsinghua University——领域自适应迁移学习赋能工业缺陷检测 Invited
YU Sai, Huawei Advanced Manufacturing Lab——先进制造视觉检测/测量需求与挑战Invited

Sponsor:
Chinese Society for Optical Engineering (CSOE)
Organizers:
Shenzhen University
Shenzhen University of Technology
Southern University of Science and Technology
Shanghai University of Technology
State Key Laboratory of Ultra-precision Machining Technology, The Hong Kong Polytechnic University
Shanghai Engineering Research Center of Ultra-Precision Optical Manufacturing, Fudan University
Advanced Optical Manufacturing Youth Expert Committee, CSOE
Co-organizers:
Guangdong University of Technology
National University of Defense Technology
Harbin Institute of Technology (Shenzhen)
Beijing Institute of Space Mechanics & Electricity
Tianjin Jinhang Technical Physics Institute
Shenzhen Polytechnic
Support Units:
Leading Optics
CHANGCHUN CHANGGUANG DAQI TECHNOLOGY CO,. LTD
STELLA INTERNATIonAL CORP LTD
TAYLOR HOBSON LIMITED
ZYGO Corporation
Dalian Shenghang Kexing Technology Development Co., Ltd.
PULSE-TECH (BEIJING) TECHNOLOGY CO., LTD.
Shanghai DESIOPTOE Co., Ltd.
Shanghai Verde Instrument Technology Co.,Ltd
QM Optoelectronic Intelligent Technology(Suzhou) Co.,Ltd.
Qingdao Germanlitho Co., Ltd.
WUHAN RED STAR YANG TECHNOLOGY CO.,LTD
Guangdong Kingding Optical Technology Co.,Ltd
MDPI-Academic Open Access Publishing since 1996
AMETEK Precitech Inc
Langxin optics co., ltd.
Z&Z Optoelectronics Tech. Co., Ltd
Honorary Chairs:
范
FAN Dianyuan, Academician, Shenzhen University 
庄
ZHUANG Songlin, Academician, University of Shanghai for Scienceand Technology
蒋
JIANG Zhuangde, Academician, Xi’an Jiaotong University
Chairs:
郭
GUO Dongming, Academician, Dalian University of Technology
谭
TAN Jiubin, Academician, Harbin Institute of Technology
毛
MAO Junfa, Academician, Shenzhen University

Paul Shore , Academician of the Royal Academy of Engineering, Loxham
Executive Chairs:
ZHANG Xueji, Shenzhen University
YAO Yingxue, Harbin Institute of Technology (Shenzhen)
ZHANG Xuejun, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
WANG Xiaoyong, Beijing Institute of Space Mechanics & Electricity
DAI Yifan, National University of Defense Technology
TPC Chairs:
Benny Chi Fai Cheung,Hong Kong Polytechnic University
WU Zongze, Shenzhen University
TPC:
ChenLiang-Chia, National University of Taiwan, China
ChenShih Chi, Chinese University of Hong Kong, China
Chen,Wei-Jun, Zeiss Group, Germany
Fang Fengzhou, Tianjin University
Huang Han, University of Queensland,Australia 
Xichun Luo, University of Strathclyde, UK
Daewook Kim, University of Arizona, USA
Kim Seung-woo, Korea Advanced institute of Science and Technology, Korea
Sandy To, Hong Kong Polytechnic University
Lei Wei, Nanyang Technological University, Singapore
Kazuya Yamamura, Osaka University, Japan
Saulius Juodkazis, Swinburne University of Technology, Australia
YSAOM2023 Presidium:
Chairs:
KONG Lingbao, Fudan University
ZHANG Dawei, University of Shanghai for Science and Technology
GONG Feng, Shenzhen University
LI Lihua , Shenzhen University of Technology
Co-Chairs(Sort alphabetically by family name):
GAO Ping, Institute of Optics and Electronics, CAS
GUO Jiang, Dalian University of Technology
JI Shijun, Jilin University
LIU Huasong, Tianjin Jinhang Institute of Technical Physics
PENG Xiaoqiang, National University of Defense Technology
PENG Yunfeng, Xiamen University
REN Mingjun, Shanghai Jiao Tong University
WANG Sujuan, Guangdong University of Technology
WANG Yonggang, Beijing Institute of Space Mechanics & Electricity
WEI Chaoyang, Shanghai Institute of Optics and Fine Mechanics, CAS
XUE Changxi, Changchun University of Science and Technology 
XUE Donglin, Changchun Institute of Optics, Fine Mechanics and Physics, CAS
ZHANG Jiyou, Zhejiang Dali Technology Co., Ltd
ZHANG Xiaodong, Tianjin University
ZONG Wenjun, Harbin Institute of Technology 
微信图片_20230704130506
Micromachines
Special issue
on “Selected Papers from The 8th Asia Pacific Conference on Optics Manufacture & 3rd International Forum of Young Scientists on Advanced Optical Manufacturing”, indexed within Scopus, SCIE (Web of Science), PubMed, PMC, Ei Compendex, dblp, and other databases.
 
Micromachines (ISSN 2072-666X) is an open access journal which provides an advanced forum for the science and technology of studies on micro/nano-scaled structures, materials, devices, systems as well as related micro- and nanotechnology from fundamental research to applications. This Special Issue will publish selected papers from The 8th Asia Pacific Conference on Optics Manufacture & 3rd International Forum of Young Scientists on Advanced Optical Manufacturing on Micromachines. You are welcome to contribute to it.

Micromachines Special Issue is offering a 15% (390 CHF) discount for all papers recommended by the APCOM & YSAOM2023 conference.
 
editor contact: Aria Zeng: aria.zeng@mdpi.com
Submission website:
https://www.mdpi.com/journal/micromachines/special_issues/0S1ZSI2WCV 

微信图片_20230704130513

 Sponsorship:    赞助方案.pdf
 中国光学工程学会是中国民政部批准的全国性一级学会。学会以学术交流、工业展览、技术评估、项目转化、教育培训、融资对接、印刷出版、信息网络等多种形式,搭建产学研大平台,以培养助推光学工程年轻领军人才。学会官网:www.csoe.org.cn

当前,正值光电技术高速发展并得到广泛应用的时期,学会将充分利用独特资源,以丰富的活动,积极为广大会员搭建平台,相信您一定会在活动中有所收获!我们热诚欢迎您!


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请您在采集系统“推荐人”这一栏填写活动名称“光学制造”,组委会将协助跟进后续审核等具体事宜。
   附件0-中国光学工程学会简介.pdf    附件1-中国光学工程学会会员管理办法.pdf
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!(填写姓名)青委会委员信息申请表.doc

※ International Conference on Advanced Optical Manufacturing Technologies & Applications 2022 & 2nd International Forum of Young Scientists on Advanced Optical Manufacturing(AOMTA & YSAOM 2022)
https://b2b.csoe.org.cn/meeting/YSAOM2022.html
2022年先进光学制造技术及应用国际会议暨第二届国际先进光学制造青年科学家论坛(AOMTA & YSAOM 2022)顺利闭幕!
https://mp.weixin.qq.com/s/dkBnShO365gPd7FvTcWR4A
※" The 7th Asia Pacific Conference on Optics Manufacture(APCOM2021) & 2021 International Forum of Young Scientists on Advanced Optical Manufacturing(YSAOM2021)"https://b2b.csoe.org.cn/meeting/YSAOM2021.html 
Contacts:
Conference:
WANG Haiming(CSOE)
wanghaiming@csoe.org.cn,022-59013420
Submission and Registration:
NING Jiaming(CSOE)
ninjiaming@csoe.org.cn,010-83326359
ZHANG Guoqing(Shenzhen University)
zhanggq@szu.edu.cn, 0755-26536306
LI Yingchun(Changchun University of Technology)
liyingchun@ccut.edu.cn
Industrialization Forum:
LV Zichen(CSOE)
lvzichen@csoe.org.cn,13810226340
LU Yanjun(Shenzhen University)
luyanjun@szu.edu.cn,0755-86950053
Sponsorship:
LV Zichen(CSOE)
lvzichen@csoe.org.cn,13810226340
Short courses and workshops:
NING Jiaming(CSOE)
ninjiaming@csoe.org.cn,010-83326359
ZHAO Zejia(Shenzhen University)
zhaozejia@szu.edu.cn, 15019476845