1983, stayed in the department of physics of Hebei Normal University after graduation. He has served as teaching assistant (1July 983-1August 986) and lecturer (1May 989-/August 993).
1986 was admitted to southwest jiaotong university for a master's degree in solid state physics. 1989, got a master's degree.
1994 was admitted to the Institute of Semiconductors, Chinese Academy of Sciences as a doctoral student. 1996, received a doctorate. He has worked in Tsukuba Institute of NEC Electric Appliance Co., Ltd., Italy International Center for Theoretical Physics, and Physics Department of Hong Kong University of Science and Technology to predict the performance of photoelectric devices.
In 2003, he was supported by the National Science Fund for Distinguished Young Scholars.
In 2006, he served as deputy director of the Institute of Semiconductors of Chinese Academy of Sciences and deputy secretary of the Party Committee (up to 20 1 1). In the same year, he was the academic leader of the National Innovation Research Group "Quantum Control in Semiconductor Low-dimensional Structures".
In 2009, he served as the chief scientist of the national major scientific research plan (973 Project). Selected as the national "100 million talents project in the new century".
20 1 1 was elected as an academician of China Academy of Sciences (Information Technology Science Department of Academy of Sciences), 1 1 won the Science and Technology Progress Award of He Liang Heli Fund. 12 years as director of semiconductor research institute of Chinese academy of sciences (until April 20 18) and secretary of the party Committee (2065433).
2015165438+1October 2 1 day, Li Shushen officially became an academician of developing countries at the 26th Academy of Sciences Congress, with a term of 20 16 to 20 18.
20 17 12, China academy of sciences official website "hospital leadership collective" page update shows that Li Shushen, a member of the party group of China academy of sciences, is also the vice president.
On may 7th, 20 18, the announcement meeting on personal adjustment of university leadership of Chinese academy of sciences was held in the auditorium of Yuquan road campus. The meeting was presided over by Sun Xiaoming, Director of Personnel Bureau of China Academy of Sciences. At the meeting, Sun Xiaoming read out the decision of the party group of the Academy: to appoint Comrade Li Shushen as the president (and legal representative) of China Academy of Sciences.
Summary of main achievements and scientific research Li Shushen is mainly engaged in the basic research of device physics in semiconductor low-dimensional quantum structures. A physical model is proposed to study the electronic state structure of semiconductor coupled quantum dots (rings). It is theoretically determined that semiconductor quantum dots can absorb vertically incident light, and the vacuum decoherence mechanism of semiconductor quantum point charge qubits is discovered. A numerical method for calculating the quantum transport of electrons through semiconductor quantum dots is developed.
Undertake a project &; Achievement Award Li Shushen participated in and presided over the National Climbing Plan in the Eighth Five-Year Plan and the Ninth Five-Year Plan, the National Major Basic Research Plan (973 Project), the National Natural Science Foundation and many major and key projects of the Chinese Academy of Sciences. In 2004, 2009 and 20 17, he won the second prize of national natural science.
Undertake this project
Time Project Name Project Source 2009-20 13 Quantum Modulation and Application Exploration in Micro-Nanostructures (973) Project 2007-20 10 China Academy of Sciences, International Cooperation Project of Innovation Team of State Administration of Foreign Experts Affairs 2006-20 14 Innovation Group of National Natural Science Foundation of China.
The name of the time project comes from the second prize of the National Natural Science Award for theoretical research on physical properties of semiconductor nanostructures in 2004, the second prize of the National Natural Science Award for optical and transport properties of semiconductor low-dimensional structures in 2009, and ranked first in 2065438+2007. As of 20 17, Li Shushen has published more than 200 papers in important academic journals at home and abroad, including Proceedings of the National Academy of Sciences and American Physical Review Express.
Representative Works (10)
Effective mass theory of GaAs/GaAlAs quantum wires and corrugated superlattices grown on [1].(3 1 1) oriented substrates. Physical Revision B50,8602 (1994).
[2]. Li Shushen, Xia Jianbai, Yuan Zhilin, Xu Zhiyong, Ge Yuying, Wang Jun, Zhang Lilin, Effective Mass Theory of InAs/GaAs Strain Coupled Quantum Dots. Physical revision B54,11575 (1996).
[3]. In-band optical absorption of semiconductor coupled quantum dots. Physical revision B55, 15 434 (1997).
[4]. Electronic structure of InAs self-assembled quantum dots in axial magic field. Physical revision B58,3561(1998).
Li Shushen and Xia Jianbai, Electronic States of InAs/GaAs Quantum Rings. Journal of Applied Physics, vol.89, p.3434 (200 1).
[6]. Li Shusheng, Feng, Feng Songlin, Zheng Houzhi, Quantum Puting. Dear. Naturally. Akkad Sci。 USA, 98(2 1),11847 (2001).
Li Shushen, Chang Kai, Xia Jianbai and Kenji Hirose, Spin-dependent Transport of Magic Semiconductor Quantum Dots Diluted by Cd 1-xMnxTe, Physical Review B68, 245-306(2003).
Li Shushen, Xia Jianbai, Effective Mass Theory of Hierarchical Self-assembly of GaAs/AlxGa 1-xAs Quantum Dots, Physical Review B7 1, 155 30 1 (2005).
[9]. Li Shushen, Xia Jianbai, Asymmetric Quantum Confined Stark Effect of Graded Self-assembly of GaAs/AlxGa 1-xAs Quantum Dots, Lite Applied Physics. 87, 043 102 (2005).
[10]. Li Shushen, Xia Jianbai, Electronic Structure of N Quantum Dots, Lite Applied Physics. 9 1, 092 1 19 (2007).
Personnel Training 201212 On 22 February, Li Shushen, as the director of the academic committee, said that the doctoral training of the National Science and Technology University of China should be elite education, and the quality of doctoral students reflects the educational level of the National Science and Technology University of China and the Chinese Academy of Sciences, so it is very important to implement the doctoral qualification examination, which is very important for establishing the educational brand of the school.
Li Shushen has long been the dean of the School of Materials Science and Optoelectronic Technology of the Chinese Academy of Sciences, and the head teacher of the first undergraduate class 14 12. Under his leadership, the university materials discipline of Chinese Academy of Sciences has entered the top 10,000 in ESI ranking, and was selected into the first batch of national first-class discipline construction list. His rich experience in the integration of science and education plays an important role in promoting the "Integration of Science and Education 3.0" with the talent team as the core, promoting the comprehensive reform of the school and improving the overall innovation ability.
By the end of 20 16, Li Shushen had trained more than 50 doctors and masters, and 6 postdoctoral students had left the station. In 2009, Li Yanchao, a doctoral supervisor, won the Excellent Doctoral Award from Poliana University. According to the information of China Institute of Science and Technology Information, National Institute of Digital Engineering Technology and National Library Reference and Consulting Alliance, Li Shushen's training for students is as follows:
Study on photoelectric properties of 20 16 two-dimensional materials; Study on quantum mechanical calculation method of non-equilibrium dynamic process of 20 15 nanometer system by Dr. Yang Juehan; Study on in Si(00 1) of 2015 z-shaped graphene nanobelt by Dr. Wang Zhi. First-principles study on surface adsorption and doping Theoretical study on spin decoherence in Dr. Li Jing's solid-state quantum computing system 20 15 Development of high-performance computational physics methods 20 14 Dr. Chen and his application 20 14 Study on transport properties in low-dimensional quantum systems 20 1 3 Self-consistent Bonn Approximate Master Equation and Its Application in Quantum Dot Transport Dr. 2065444 Jun 20 13 Quantum Correlation in Heisenberg Spin Chain System Dr. Cai 20 13 Calculation of Electronic Structure of Two-dimensional Coupled Semiconductor Quantum Dot Array Dr. 20 13 Observation of Electron Transfer between Quantum Dots at Continuous Zero. Study on transport properties of Dr. Yi Ping's 20 13 quantum spin Hall system; Study on quantum measurement efficiency and decoherence of Dr. An's 20 12 charge qubits; Study on quantum nonlocality correlation of Dr. Ye Yin's 20 12; Theoretical study on quantum scattering effect on topological insulator surface; Dr. Fu Zhenguo's 206 5438+02 in Be, First-principles study on surface adsorption of Zr and CeO2 _ 2 Dr. 20 12 Study on lattice relaxation in low-dimensional structure Dr. 201Study on defects and doping characteristics of transparent conductive materials Dr. Cui Dr. Wang Jing Dr. 20 10 Quantum mechanical calculation of nano-scale semiconductor devices Dr. Jiang 20 10. First-principles study on exciton state in low-dimensional zinc oxide semiconductor materials Dr. Xiong Wen's 20 10 semiconductor magnetic doping and P-type doping Dr. Hong Liang's spontaneous emission of quantum dots in 20 10 photonic crystals and optical transition under spin-orbit coupling Dr. Zhu Zhengyong's 2009 quantum logic gate based on spin interaction and teleportation Dr. Zhou Yue's 2009 two-dimensional system, Study on Conservation Spin Hall Conductance Dr. Liu 2009 Magnetic Research of Two-dimensional Semiconductor Materials under Strong Magnetic Field Dr. Fang Cheng 2009 Physics and Application of Exciton Spin Orbit Coupling System Dr. Wang Jianwei 2009 Quantum Phase Transition in Low-dimensional System and Its Research Method Dr. Li Yanchao 2009 Quantum Phase Transition and Tight Binding Approximation Model in Quantum Information under Strong Magnetic Field Dr. Yuan Zigang 2009 Solid. Quantum entanglement and heat generation in mesoscopic system Dr. Zhou Liling 2009 Transport properties of electrons in semiconductor microstructures Dr. Wang Chuanchuan 2009 First-principles research on magnetic and optical properties of semiconductor materials Dr. Shi 2008 Research on impurity state system in coupled double quantum dots Dr. Shi 2008 First-principles calculation of doping mechanism in low-dimensional semiconductor materials Dr. 2008 Point and quantum electronic structure in quantum rings Master Wang Chuanchuan 2008 TiO _ 2 nano-materials and Ferromagnetism of semiconductor materials Dr. Peng Hao 2008 First-principles study of transparent conductive oxide Cu MO2 Dr. Fang Zhijie 2008 First-principles study of Alingan quaternary alloy Dr. Wang Fei 2008 First-principles calculation of semiconductors and ferroelectric materials Dr. Duan Yifeng 20 Study on quantum properties of electrons in semiconductor quantum dots Dr. Liu Yonghui 2007 Study on electron tunneling in low-dimensional semiconductor heterostructures Dr. Gong Jian 2007 Semi-metal. Zb-CrAs and diluted magnetic semiconductors (Ga, Molecular beam epitaxy growth and magnetic study of Cr)As thin films Dr. Bi Jingfeng 2007 Exciton dynamics study of double-layer semiconductor system Dr. Wang Li 2006 quantum entanglement in spin chains and quantum optical model study Zhang * * * A scheme for directly detecting the entanglement of unknown quantum States under the condition of postdoctoral 2006 Dr. Bai 2006 Time-dependent electron transport of quantum dots Dr. 2006 Calculation of electronic structure of semiconductor nanostructures Dr. Luo CMC 2005 Theoretical research and application of electronic structure of two-electron quantum dots Dr. Sun 2005 Vertical coupling self-organized InAs/ Study on Electronic States of GaAs Double Quantum Disks Dr. Dong Qingrui 2005 Transport Properties of Strongly Associated Electrons in Quantum Dots Dr. Chi Feng 2005 Generation of Quantum Entanglement in Microwave Cavity Quantum Electrodynamics System Dr. Jin Guangsheng 2005 Transmission Theory and Entanglement Measurement of Quantum Information of Continuous Variables Dr. Wang Liang 2004 Decoherence Ahmad in Scalable Superconducting Quantum Computing System
. Abu Lizi
Dr. Honorary Commendation Time Honorary/Commending Source Enjoy the Special Allowance of the State Council * * * 20 1 1 year Academician of China Academy of Sciences (Ministry of Information Technology Science). 20 1 1 year1month He Liang Heli Fund Science and Technology Progress Award 20 15 years1month The social service time of academicians in developing countries is the source of work 201July 6- 5438+0510-2016 Vice Chairman of Chinese Institute of Electronics 2009 -20 13 Huang Kun Semiconductor Physics Science Award (Foundation)No. 1 1. 14 member of the expert review group, member of the review committee of the 7th National Science Fund for Distinguished Young Scholars, member of the 5th Information Science Department, member of the 6th Expert Advisory Committee, member of the editorial board of the monograph series of Semiconductor Science and Technology of Science Press; Editorial Committee of Journal of Semiconductor Research Communication; Editorial Committee of China Science Series G: Physics, Mechanics and Astronomy; Physics Editorial Board; This paper evaluates Li Shushen's role in low-dimensional semiconductor physics and devices, performance prediction of photoelectric devices, solid-state quantum information and other basic physical research. His research work has been widely cited by international peers, including comprehensive papers by internationally renowned semiconductor physics experts, and has been written into monographs. (Lanzhou University Review)