Xiao Ming was selected as the "Double Hundred Talents Project" of Sichuan University, deputy head of the youth working group of the electrochromic professional committee of China Photosensitive Society, and presided over two projects of the National Natural Science Foundation of China, Sichuan Natural Science Foundation 1 project. Kloc-0/2 graduated from College of Polymer Science and Engineering of Sichuan University and Wu Honor College, and received his Ph.D. in Polymer Science from university of akron, USA on 20/0/7.
20 17-202 1 Engaged in postdoctoral research in the School of Engineering and Applied Science, Harvard University. In September, 20021year, he formally joined the College of Polymer Science and Engineering of Sichuan University, conducted independent scientific research, and established the research group of disordered optical materials.
For many years, he has been engaged in the international prospective study of single electron spin qubits in silicon materials, and has achieved some innovative scientific research results: Zeeman splitting of single electron spin was observed in submicron silicon MOS devices for the first time, and the flip and measurement of single electron spin were realized by magnetic resonance technology for the first time.
Xiao Ming's main achievements and research direction;
1, research direction:
Based on the interdisciplinary subjects of polymer physics, polymer chemistry, optics and bionics, this paper focuses on the study of disordered color optical materials, involving three directions: multi-scale accurate regulation of disordered color materials and basic theoretical research on structure-activity relationship; Develop low-carbon environmental protection processing technology based on self-assembly and prepare disordered photonic materials on a large scale; Broaden the application of intelligent disordered photonic materials in multifunctional scenes, such as thermal management, military anti-counterfeiting, dynamic display and so on.
2. Main achievements:
Xiao Ming developed a set of ultra-fast and universal coherent manipulation methods for single-electron charge qubits, which realized the manipulation of single-electron charge qubits and the controlled NOT-gate of two qubits. He has published more than 30 papers in academic journals such as Nature, Nature Communications and Physical Review Letters, and has been cited by SCI for about 400 times. He presided over the general fund of NSFC and participated in the 973 Program of Ministry of Science and Technology, Pilot B of Chinese Academy of Sciences and other major national research programs.