Wang Zhi is a research fellow and doctoral supervisor of Changchun Institute of Optics, Fine Mechanics and Physics (CIOMP), Chinese Academy of Sciences, and Deputy Director of the Department I of Space Optics. He is a double-employed professor at the School of Fundamental Physics and Mathematical Sciences of Hangzhou Institute for Advanced Study, UCAS, a double-employed professor of Changchun University of Science and Technology, and a class B (national leading) talent in Jilin Province;

In 2013, he was selected as a member of the Youth Innovation Promotion Association of the Chinese Academy of Sciences.

In 2014, he was selected as a member of the Association of Young Scientists and Technicians, Jilin Province.

In 2020, he became a review expert for the general projects of the National Science and Technology Awards, a review expert for the projects of the National Natural Science Foundation of China, a project leader of the "Key Special Project of Gravitational Wave Detection" of the Ministry of Science and Technology, and an expert in the database expert of "Key Special Project of Earth Observation and Navigation". He served as a young editorial board member ofChinese Opticsand Chairman of the Parallel Session of Space Gravitational Wave Detection of the International Light Conference 2018. He has published more than 30 high-level papers in sub-journals ofNatureand other domestic and foreign journals, obtained 6 authorized invention patents and formulated 1 standard for the Institute. He has won the Dean's Award of Excellence of the Chinese Academy of Sciences, the first prize of the Science and Technology Award of Jilin Province and the second prize of the National Science and Technology Progress Award.

All of his research is related to the "China No. 1" and "World No. 1" national aerospace engineering tasks.

From 2006 to 2014, China's first transmission-type 3D surveying and mapping satellite (satellites 01, 02, 03) has the ability to acquire 3D geographic information quickly and even in real time. It overcomes the shortcomings of recoverable satellites due to the limited number of films carried, such as short in-orbit life, poor timeliness of acquiring information and inability to directly generate digital images, etc. It is a major breakthrough in China's aerospace field and a milestone in promoting China's surveying and mapping cause.

From 2009 to 2013, the extreme ultraviolet camera on Chang'e 3 of the second phase of the Chinese Lunar Exploration Program, was the first extreme ultraviolet band imaging instrument to land on the surface of the moon in the world. It was called the "eye" of Chang'e 3 to see the earth, and it could see the whole picture of the earth's plasma layer, helping to understand the relationship between the sun and the earth.

From December 2016 to December 2017, he worked as a visiting scholar at Max Planck Institute for Gravitational Physics, Germany, and engaged in research related to space gravitational wave detection. After returning to China, he founded a space gravitational wave detection team at the CIOMP, made strategic planning in relevant disciplines of space gravitational wave detection, participated in China's "Taiji Program" for space gravitational wave detection, and successively won the support from the Chinese Academy of Sciences Strategic Science and Technology Pilot Project (B), the Chinese Academy of Sciences Space Science (Phase II) Strategic Science and Technology Pilot Project (A), the National Natural Science Foundation of China and the National Key R&D Program.

From August 30, 2018 to August 31, 2019, he took one year to launch the experimental satellite Taiji-1, which adopted a microgravity technology, marking China's first step in space gravitational wave detection. Taiji-1 was selected as one of the highlight achievements of scientific research and innovation of the Chinese Academy of Sciences in 2019, and one of China's top ten scientific and technological progresses in 2019 by academicians of the Chinese Academy of Engineering and Chinese Academy of Sciences. At present, the Taiji-2 for space gravitational wave detection has started to implement the scheme and tackle key technical problems, and the related work is being effectively promoted.

Contact Information: wz070611@126.com