Dec 29, 2023 Leave a message

Chinese Academy Of Sciences 2023 Annual Award Series: Multiple Optical Figures And Teams On The List

On December 23, the Chinese Academy of Sciences in 2024 annual work conference awarded the 2023 Chinese Academy of Sciences Outstanding Scientific and Technological Achievement Award, Young Scientist Award, announced the 2023 Chinese Academy of Sciences annual figures and annual team, as well as science and technology to promote the development of the award-winning list.
According to Wikipedia-Laser combing, a number of optical figures as well as teams on this year's award list are:
2023 Young Scientist Award of the Chinese Academy of Sciences
The Chinese Academy of Sciences Young Scientist Award recognizes the Chinese Academy of Sciences science and technology innovation activities in the advanced models and make outstanding contributions to the young scientific and technological talent, a total of 20 people on the list this year, the optical field has two winners:
Liu Chunyu, a researcher at Changchun Institute of Optical Precision Machinery and Physics, CAS
Liu Chunyu, currently deputy director of the Changchun Institute of Optical Precision Machinery and Physics, Chinese Academy of Sciences, researcher, presided over the "Obit video payload development", "nano remote sensing satellites, the center of the payload and system integration technology", Hainan I satellite optical load", "Obit hyperspectral camera", "moving target detection load", "20kg micro-nano-satellite development mission" and other projects. He won awards for "Ultra-lightweight Multispectral Push-Scan Video Camera" and "High-precision Generalized Dynamic Shift Compensation Technology for Multi-degree-of-freedom and Large Attitude Angle TDI Imaging" in the "20kg Micro-Nano-Satellite Development Mission" project.
Zhu Meiping, Researcher, Shanghai Optical Precision Machinery Research Institute (SPMRI)
Meiping Zhu (SC03002), a researcher at Shanghai Institutes for Optical Precision and Mechanical Research (SIPMR), Chinese Academy of Sciences, has been engaged in laser thin film technology research for a long time, and mainly focuses on solving the problems faced by laser thin film, such as laser damage, layer stress and thickness control, stability and so on. He has published more than 80 papers and has been authorized more than 30 patents. She has been awarded the Second Prize of National Technical Invention (2/6), the First Prize of Shanghai Technical Invention (2/15), the First Prize of Anhui Science and Technology (4/10), the China Patent Excellence Award (1/4), and the National Women's Pioneer. He serves as the vice-chairman of the Optical Thin Film Standardization Technical Committee of China Materials and Testing Group Standard, the editorial board member of Journal of Optics, and the editorial board member of Optical Precision Engineering.
Person of the Year, Chinese Academy of Sciences
The Person of the Year and Team of the Year of the Chinese Academy of Sciences (CAS) recognizes the annual advanced models of the whole Academy who carry forward the spirit of scientists, play a pioneering and exemplary role, and make important contributions to scientific and technological innovation and display a good spiritual outlook.
2023 "Pioneer of the Year" of the Chinese Academy of Sciences
Fu Yuxi, Researcher, Xi'an Institute of Optics and Precision Machinery, China
Fu Yuxi is a researcher, doctoral supervisor, executive deputy director of the Center for Femtosecond Science and Technology, deputy director of the Department of Basic Research, and a visiting researcher of the RIKEN Institute of Science and Technology in Japan. Dr. Fu is a senior overseas talent from Shaanxi Province, Chinese Academy of Sciences and Xi'an Institute of Optics and Mechanics (XIOMM), the leader of Shaanxi Provincial Center for Attosecond Science and Technology (AST) Innovation Team, Deputy Editor-in-Chief of Ultrafast Science and Photonics Letters, and a senior member of the Optical Society of America (OPTICA) and the Optical Society of China (OSC), and received his B.S. degree in 2005 from Tongji University, and Ph. He received his PhD degree from Shanghai Institute of Optical Precision and Mechanical Research (SIPMR) in 2010 under the supervision of academician Xu Zhizhan and researcher Cheng Ya. He worked in the RIKEN attosecond science research team in 2010-2019, and joined Xi'an Institute of Optical Precision and Mechanical Research (XIPMR) of the Chinese Academy of Sciences in 2019.
Fu Yuxi is mainly engaged in the research of mid-infrared ultra-short ultra-intense laser technology, attosecond science and technology, far-infrared intense laser technology, x-ray absorption spectroscopy, and ultrafast dynamics. He has made the first international breakthrough in the key technology of superintense mid-infrared femtosecond laser of terawatt class in the order of 100mJ, which is regarded as an important progress in bringing the miniaturized attosecond light source to practical applications. He has been invited several times to give invited presentations at international optical conferences in the field of ultra-intense and ultra-fast, and has written invited articles in several international optical journals. He received the 13th Osaka University Kondo Prize and the 2nd RIKEN Umefumi Prize (BAIHO Award). He is a member of the Institute of Electrical and Electronics Engineers (IEEE), Laser Society of Japan (LSJ), Japan Society of Applied Physics (JSAP), and American Physical Society (APS).
② "Chinese Academy of Sciences Moving Person of the Year" in 2023
Dejiang Wang, Research Fellow, Changchun Institute of Optical Precision Machinery and Physics (CIPMP)
Dejiang Wang is a researcher and deputy director of the Department of Aerospace Imaging and Measurement Technology at Changchun Institute of Optics and Precision Machinery and Physics (CIPMP), where he focuses on dynamic optical imaging. He has broken through a number of key technologies, greatly improved the performance of existing domestic instruments, helped the leapfrog development of national dynamic imaging equipment, and met the urgent needs of the country. The projects he participated in won the first prize of National Science and Technology Progress Award and the Outstanding Achievement Award of the Chinese Academy of Sciences, etc.; he was selected as an outstanding member of the Chinese Academy of Sciences Youth Promotion Association.
2023 Chinese Academy of Sciences Science and Technology Development Award
National Timing Center "High Precision Fiber Optic Time and Frequency Transmission Research and Application" Team
With the development of time and frequency standards and fiber optic communication networks, the use of communication fiber optics to transmit time and frequency signals has shown great advantages in accuracy.
The National Timing Center of Chinese Academy of Sciences (NTC) has made significant progress in fiber optic time-frequency transmission, mainly using the PDH method and an ultra-low expansion coefficient glass optical reference cavity to obtain a 1.9 Hz linewidth 1550 nm ultra-stable and narrow linewidth laser to be used as a light source for optical frequency transmission, and performing the phase noise suppression of the transmission on a laboratory fiber to obtain a transmission stability of 8.5×10-17 (110 km, sec. stability), and a transmission stability of 8.5×10-17 (110 km, sec. stability) in a field fiber. sec stability), and close optical frequency transmission stability was also obtained on a field fiber 112 km.
The team proposes and validates a user-side compensation method for optical frequency transmission phase noise in optical fibers, which can be used in optical frequency transmission multiuser networks. The UTC (NTSC) signal was transmitted to Xi'an Space City using 56 km of Lintong-Xi'an field optical fiber, and the time synchronization between the two places was achieved with a stability better than 30 ps.
On July 20 this year, the team completed the equipment installation and performance test of the 1839 km dual-fiber, dual-channel time transfer system in the section from Xi'an to Taiyuan, marking China's completion of the world's first 10-picosecond stability of thousands of kilometers of fiber-optic time transfer engineering application system.
At present, fiber-optic time and frequency transfer technology is developing towards long-distance, multi-node and practical development, and the goal is to establish a ground-based timing technology system that is relatively independent of the satellite timing system and has a higher accuracy than any existing means of timing, and that operates reliably.

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