2024年亚洲光电子会议(Photonics Asia 2024)于10月12-14日在南通国际会议中心举办。本次大会由国际光学与光子学会(SPIE)和中国光学学会(COS)联合主办。会议共设立17个专题,涵盖光学及光学工程领域近100个研究方向。
届时欢迎广大代表参加此次光学盛会!
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| Plenary Speakers | |
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Xuejun Zhang |
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Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences |
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| Plenary Presentation Ultraprecision Polishing Asphere and Freeform Optics Using Robot based CCOS&MRF |
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Daewook Kim |
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Wyant College of Optical Sciences, The University of Arizona (United States) |
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| Plenary Presentation The evolving prospects of astronomical optics and telescopes |
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Jennifer K. Barton |
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Thomas R. Brown Distinguished Chair, Biomedical Engineering, The University of Arizona (United States) and 2024 President, SPIE (United States) |
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| Plenary Presentation Revealing the structure and function of the body with optical coherence tomography |
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Jianwei Wang |
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Peking University (China) |
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| Plenary Presentation Large-scale integrated quantum photonics |
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| GENERAL CHAIRS | |
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Jennifer Barton 2024 SPIE President The Univ. of Arizona (United States) |
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Qihuang Gong COS Former President Peking University (China) |
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GENERAL CO-CHAIRS | |
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Conference 13232 Advanced Lasers, High-Power Lasers, and Applications XV Chair(s): Shibin Jiang; Zhaoyang Li; Ingmar Hartl 12 - 14 October 2024 | Room 101A Conference 13233 Semiconductor Lasers and Applications XIV Chair(s): Wei Li; Sha Zhu; Werner H. Hofmann; Ting Wang 12 - 13 October 2024 | Room 105A Conference 13234 Advanced Laser Processing and Manufacturing VIII Chair(s): Minghui Hong; Ting Huang; Yuji Sano; Jianhua Yao 12 - 13 October 2024 | Room 206 Conference 13235 Photonics for Energy IV Chair(s): Haizheng Zhong; Rui Zhu; Samuel D. Stranks; Jianpu Wang 14 October 2024 | Room 207 Conference 13236 Optoelectronic Devices and Integration XIII Chair(s): Xuping Zhang; Baojun Li; Changyuan Yu; Xinliang Zhang 12 - 13 October 2024 | Room 102A Conference 13237 Optical Design and Testing XIV Chair(s): Yongtian Wang; Tina E. Kidger; Rengmao Wu 13 - 14 October 2024 | Room 106A Conference 13238 Advanced Optical Imaging Technologies VII Chair(s): Xiao-Cong Yuan; P. Scott Carney; Kebin Shi 12 - 13 October 2024 | Room 102B Conference 13239 Optoelectronic Imaging and Multimedia Technology XI Chair(s): Jinli Suo; Zhenrong Zheng 13 - 14 October 2024 | Room 106B Conference 13240 Holography, Diffractive Optics, and Applications XIV Chair(s): Changhe Zhou; Ting-Chung Poon; Liangcai Cao; Hiroshi Yoshikawa 12 - 14 October 2024 | Rooms 103A (Saturday-Monday) and 103B (Sunday) Conference 13241 Optical Metrology and Inspection for Industrial Applications XI Chair(s): Sen Han; Gerd Ehret; Benyong Chen 12 - 14 October 2024 | Room 101B Conference 13242 Optics in Health Care and Biomedical Optics XIV Chair(s): Qingming Luo; Xingde Li; Ying Gu; Dan Zhu 12 - 14 October 2024 | Room 107A Conference 13243 Advanced Sensor Systems and Applications XIV Chair(s): Minghong Yang; Chang-Seok Kim; Xinyu Fan; Jianzhong Zhang 13 - 14 October 2024 | Room 107B Conference 13244 Nano-optoelectronics and Micro/Nano-photonics X Chair(s): Zhiping Zhou; Kazumi Wada; Shaoliang Yu 13 - 14 October 2024 | Room 208 Conference 13245 Plasmonics VIII Chair(s): Zheyu Fang; Takuo Tanaka 12 - 13 October 2024 | Room 207 Conference 13246 Quantum and Nonlinear Optics XI Chair(s): Qiongyi He; Dai-Sik Kim; Chunhua Dong 12 - 14 October 2024 | Room 105B Conference 13247 Infrared, Millimeter-Wave, and Terahertz Technologies XI Chair(s): Cunlin Zhang; Masahiko Tani 13 - 14 October 2024 | Room 206 |
| GENERAL CHAIRS | |
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Jennifer Barton 2024 SPIE President The Univ. of Arizona (United States) |
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Qihuang Gong COS Former President Peking University (China) |
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GENERAL CO-CHAIRS | |
| 08:50 Ultraprecision Polishing Asphere and Freeform Optics Using Robot based CCOS&MRF | |
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Xuejun Zhang |
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Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences |
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Abstract: The utilization of 5 or 6 axis CNC machines, commonly known as "Box machines," in conjunction with sub-aperture polishing techniques such as Computer Controlled Optical Surfacing (CCOS), Magnetorheological Finishing (MRF), and Ion Beam Figuring (IBF), represents established methodologies for achieving sub-nanometer precision in the fabrication of aspherical and freeform optics. Despite their efficacy, these methods are characterized by a notable financial burden, particularly in the context of large-scale production of high-end optical components. This presentation introduces a novel polishing methodology centered around robotic systems. Specifically, deterministic polishing technologies like CCOS and MRF are synergistically integrated with robotic platforms to realize a versatile and economically viable multi-axis polishing apparatus. The presentation delves into the advantages and disadvantages inherent in Robot CCOS&MRF systems, elucidating various compensation techniques designed to enhance the precision of the robotic polishing process. Empirical evidence underscores the capability of robot-based CCOS & MRF systems to attain nanometer-level accuracy in the fabrication of mid-sized aspherical or freeform optics, all while operating within a cost-effective framework. Biography: Xuejun Zhang, received his Ph.D. degree from Changchun Institute of Optics and Fine Mechanics (CIOMP) in 1997. He is now Director of CIOMP and academician of Chinese Academy of Engineering. Dr. Zhang has been engaged in optical system design, manufacturing, and testing for more than 30 years, and led his team in achieving a major breakthrough in the high-precision manufacturing technology of 4.03 meter SiC mirrors. The overall results are of a world-leading level. He is also the team leader of the 30 Meter Telescope (TMT) Tertiary Mirror Manufacturing project. As principal investigator, he has completed a number of national research projects and won five National Awards for Achievements in Science and Technology. He was supported and rewarded by the "Hundred Talents Program" of the Chinese Academy of Sciences, the National "Outstanding Youth" Fund, the Qian Xuesen Outstanding Contribution Award of the China Aerospace Foundation, and the Science and Technology Award of the Chinese Society for Space Science. Dr. Zhang is a Fellow of SPIE 、Chinese Optical Society、Chinese Society for Optical Engineering and a member of OSA. He has published 168 peer-reviewed papers. |
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| 09:30 The evolving prospects of astronomical optics and telescopes | |
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Daewook Kim |
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Wyant College of Optical Sciences, The University of Arizona (United States) |
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Abstract: Advancements in optical design, precision engineering, and control systems are pivotal for the development of next-generation astronomical telescopes that explore the universe. Notable new telescope architectures utilizing scalable optical engineering technologies have been developed at the University of Arizona, USA. Prototype fabrication and testing results demonstrate a promising pathway toward the future of astronomical telescopes. Biography: Daewook Kim is an associate professor of Optical Sciences and Astronomy at the University of Arizona. He has devoted his efforts to a multitude of space and ground-based large optical engineering projects. His primary research focuses on precision freeform optics design, fabrication, and various metrology topics, including interferometry and dynamic deflectometry. His contributions cover a broad spectrum of wavelengths, ranging from radio to x-ray. For over a decade, he has actively participated in various conference programs and short courses related to optics, delivering more than 20 plenary, keynote, and colloquium talks at various international conferences and universities. His leadership roles include chairing the Optical Fabrication and Testing conference (OPTICA) and the Optical Manufacturing and Testing conference (SPIE). Kim's academic contributions include authoring over 300 journal/conference papers and serving as an associate editor for Optics Express (OPTICA) for 2013 - 2019. His academic achievements have led to his recognition as an SPIE Fellow, and he was elected to the SPIE Board of Directors for the term spanning 2024 to 2026. |
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| 10:10 Tea/Coffee Break | |
| 10:40 Revealing the structure and function of the body with optical coherence tomography | |
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Jennifer K. Barton |
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Thomas R. Brown Distinguished Chair, Biomedical Engineering, The University of Arizona (United States) and 2024 President, SPIE (United States) |
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Abstract: Non-destructive techniques are critical for understanding the body’s structure and function, for both scientific discovery and development of diagnostic procedures. Optical coherence tomography (OCT) is outstanding for cross-sectional mapping of the microstructure of tissue up to 2 mm in depth. Variants of OCT can show blood flow, quantify tissue stiffness, and visualize movement of cellular structures. I will discuss two examples of how OCT has positively impacted medicine. First, monitoring tumor growth in mouse models of colon cancer is critical for understanding the value of chemopreventive and therapeutic compounds. Miniature endoscopes allow alterations in crypt structure and tumor size to be visualized. Second, the understudied fallopian tube is a significant imaging challenge, but careful ex vivo studies and development of flexible sub-mm diameter endoscopes allow elucidation of the complex microstructure of the FT including the coordinated movement of cilia. These insights can be used for understanding infertility and the development of ovarian cancer. Biography: Jennifer Kehlet Barton received her Ph.D. in Biomedical Engineering from the University of Texas at Austin. She previously worked for McDonnell Douglas (now Boeing) on the International Space Station program. She is currently the Thomas R. Brown Distinguished Professor of Biomedical Engineering, and is additionally appointed in Optical Sciences, Electrical & Computer Engineering, and Medical Imaging at the University of Arizona. She has served as department head of Biomedical Engineering, Interim Vice President for Research, and is currently Director of the BIO5 Institute, a collaborative research institute dedicated to solving complex biology-based problems affecting humanity. She is 2024 President of SPIE, the International Society for Optics & Photonics. Barton develops miniature endoscopes that combine multiple optical imaging techniques, particularly optical coherence tomography and fluorescence spectroscopy. She evaluates the suitability of these endoscopic techniques for detecting early cancer development in patients and pre-clinical models. She has a particular interest in the early detection of ovarian cancer, the most deadly gynecological malignancy. |
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| 11:20 Large-scale integrated quantum photonics | |
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Jianwei Wang |
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Peking University (China) |
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Abstract: Harnessing integrated quantum photonic circuits for the generation, manipulation, and detection of quantum states of light offers a pathway towards implementing advanced quantum technologies for applications spanning quantum computation, quantum simulation, and quantum communication. In this presentation, we will show recent advancements in the large-scale integrated photonic devices and circuits for quantum computation, networking, and simulations. Our discussion will delve into the on-chip processes involved in creating, manipulating, and measuring complex entanglement structures, such as multidimensional and multiphoton entanglement. We will discuss quantum computing and networking with integrated photonics, highlighting several aspects of chip-based entanglement distribution, teleportation, Gaussian Boson sampling, qudit-based and cluster-state quantum computations. We will also discuss photonic simulations of topological physics on a lattice of coupled microresonators, by which we have observed topologically-protected entanglement and fast topological non-Hermitian phase transitions, and we implemented a fully programmable photonic insulator within this framework. Biography: Dr. Jianwei Wang is an Assistant Professor in the Physics department at Peking University. He obtained his PhD from the University of Bristol in 2016. His research group focuses on Quantum Information Science and Technologies with Integrated Photonics. His team has made significant contributions to the advancement of large-scale integrated silicon-photonic quantum technologies. Their work focuses on on-chip generating, processing and detecting complex entangled states of light, as well as on integrated photonic quantum computing, quantum networking and quantum simulation. Dr. Wang has a prolific publication record, with peer-reviewed papers in prestigious journals such as Science (3), Nature Physics (5), Nature Photonics (5), Nature Materials, Nature Computational Science, Nature Review Physics, Nature Communications (4), Science Advances, PRL, and Optica, in addition to 5 CLEO post-deadline papers. His contributions to the field have been recognized through various awards, including the National Science Fund for Distinguished Young Scholars (2023), Daheng Wang Award (2023), C.N. Yang Award (2022), and Yutai Rao Fundamental Optics Award (2019). |
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Conference
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Conference 13232 Advanced Lasers, High-Power Lasers, and Applications XV Chair(s): Shibin Jiang; Zhaoyang Li; Ingmar Hartl 12 - 14 October 2024 | Room 101A Conference 13233 Semiconductor Lasers and Applications XIV Chair(s): Wei Li; Sha Zhu; Werner H. Hofmann; Ting Wang 12 - 13 October 2024 | Room 105A Conference 13234 Advanced Laser Processing and Manufacturing VIII Chair(s): Minghui Hong; Ting Huang; Yuji Sano; Jianhua Yao 12 - 13 October 2024 | Room 206 Conference 13235 Photonics for Energy IV Chair(s): Haizheng Zhong; Rui Zhu; Samuel D. Stranks; Jianpu Wang 14 October 2024 | Room 207 Conference 13236 Optoelectronic Devices and Integration XIII Chair(s): Xuping Zhang; Baojun Li; Changyuan Yu; Xinliang Zhang 12 - 13 October 2024 | Room 102A Conference 13237 Optical Design and Testing XIV Chair(s): Yongtian Wang; Tina E. Kidger; Rengmao Wu 13 - 14 October 2024 | Room 106A Conference 13238 Advanced Optical Imaging Technologies VII Chair(s): Xiao-Cong Yuan; P. Scott Carney; Kebin Shi 12 - 13 October 2024 | Room 102B Conference 13239 Optoelectronic Imaging and Multimedia Technology XI Chair(s): Jinli Suo; Zhenrong Zheng 13 - 14 October 2024 | Room 106B Conference 13240 Holography, Diffractive Optics, and Applications XIV Chair(s): Changhe Zhou; Ting-Chung Poon; Liangcai Cao; Hiroshi Yoshikawa 12 - 14 October 2024 | Rooms 103A (Saturday-Monday) and 103B (Sunday) Conference 13241 Optical Metrology and Inspection for Industrial Applications XI Chair(s): Sen Han; Gerd Ehret; Benyong Chen 12 - 14 October 2024 | Room 101B Conference 13242 Optics in Health Care and Biomedical Optics XIV Chair(s): Qingming Luo; Xingde Li; Ying Gu; Dan Zhu 12 - 14 October 2024 | Room 107A Conference 13243 Advanced Sensor Systems and Applications XIV Chair(s): Minghong Yang; Chang-Seok Kim; Xinyu Fan; Jianzhong Zhang 13 - 14 October 2024 | Room 107B Conference 13244 Nano-optoelectronics and Micro/Nano-photonics X Chair(s): Zhiping Zhou; Kazumi Wada; Shaoliang Yu 13 - 14 October 2024 | Room 208 Conference 13245 Plasmonics VIII Chair(s): Zheyu Fang; Takuo Tanaka 12 - 13 October 2024 | Room 207 Conference 13246 Quantum and Nonlinear Optics XI Chair(s): Qiongyi He; Dai-Sik Kim; Chunhua Dong 12 - 14 October 2024 | Room 105B Conference 13247 Infrared, Millimeter-Wave, and Terahertz Technologies XI Chair(s): Cunlin Zhang; Masahiko Tani 13 - 14 October 2024 | Room 206 |
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