Chinese Name: |
Li Xiangqian |
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Professional Title: |
Lecturer |
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Degree: |
Doctor |
Master Supervisor: |
No |
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Doctoral Supervisor: |
No |
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Email: |
lixiangqian@tyut.edu.cn |
Department: |
Physics |
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Research Orientation:
1.Gravity theory, black hole physics;
2. Cosmology, early universe;
Lectured Courses:College Physics(Bachelor);CollegePhysics Experiment(Bachelor).
Personal experience:
Education Experience:
September 2006-July 2010, Henan Polytechnic University, Applied physics, Undergraduate /Bachelor
September 2010-July 2013, Beijing University of Technology, Physics, Postgraduate / Master of Science
September 2013-July 2017, University of Chinese Academy of Sciences, Theoretical physics, Postgraduate / Doctor of Science
Work Experience:
July 2017—Present, Taiyuan University of Technology, School of Physics and Optoelectronic Engineering
Research Project
1.Li Xiangqian, The black hole solutions and black hole accretion with the background of modified Chaplygin gas (project number:11947135), Special Foundation for Theoretical Physics Research Program of China, 50,000, 2020.01.01-2020.12.31
2.Li Xiangqian, The black hole solutions and black hole accretion with Chaplygin gas background (project number:201901D211110), Natural Science Foundation for Young Scientists of Shanxi Province, China, 30,000, 2019.09-2022.09
Scientific Achievements
【Paper】
1.Xiang-Qian Li*, Bo Chen, Li-li Xing,Charged Lovelock black holes in the presence of dark
fluid with a nonlinear equation of state, The European Physical Journal Plus, 135(2020) 175 (SCI 3区, IF=3.228)
2.Xiang-Qian Li*, Massive vector particles tunneling from black holes influenced by the generalized uncertainty principle, Physics Letters B, 763( 2016), 80-86(SCI 2区, IF=4.384)
3.Xiang-Qian Li*, Ge-Rui Chen, Massive vector particles tunneling from Kerr and Kerr–Newman black holes, Physics Letters B, 751(2015) 34-38 (SCI 2区, IF=3.495 )
4.X.-Q. Li*, M.-X. Shao, H. J. Paik, Y.-C. Huang, T.-X. Song, X. Bian, Effects of satellite positioning errors and Earth’s multipole moments in the detection of the gravitomagnetic field with an orbiting gravity gradiometer, Gen. Relativ. Gravit 46(2014) 1737 (SCI 4区, IF=2.03)
【Patent】
【Award】
Honors and awards
