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秦宏

 

   

 

姓名:

 

 秦宏

职称:

 教授,执行院长

电话:

 0551-63600903

传真:

 0551-63607713

邮箱:

hongqin@ustc.edu.cn

中国科学技术大学核科学技术学院执行院长、近代物理系教授、中国科学院磁约束聚变中心主任。美国物理学会会士。1990年毕业于北京大学空间物理学专业,1993年获得北京大学空间物理学硕士学位,1998年获得普林斯顿大学天体物理学(等离子体物理)博士学位。历任普林斯顿等离子体物理国家实验室助理研究员、副研究员、研究员,并兼任普林斯顿大学天体物理系讲座教授(Lecturer with the rank of Professor)和美国能源部重离子惯性约束聚变联合实验室理论部副主任。因在磁约束聚变等离子体物理理论和强流加速器物理领域的突出贡献,于2004年被授予“美国总统青年科学家工程师早期成就奖”和“美国能源部青年科学家工程师早期成就奖”。2009年入选中组部“千人计划”。近年来在国际上首先推动了等离子体物理几何理论和几何算法的研究方向,在国际一类期刊上发表论文约130篇。

近期代表性文章:

1. Volume-preserving algorithms for charged particle dynamics, Yang He, Yajuan Sun, Jian Liu, Hong Qin, Journal of Computational Physics 281, 135 (2015).
2. 
Field theory and weak Euler-Lagrange equation for classical particle-field systems, Hong Qin, Joshua W. Burby, and Ronald C. Davidson, Phys. Rev. E 90, 043102 (2014).
3.
 Variational integration for ideal magnetohydrodynamics with built-in advection equations, Yao Zhou, Hong Qin, J. W. Burby and A. Bhattacharjee, Phys. Plasmas 21 , 102109 (2014).
4. 
Two-stream instability with time-dependent drift velocity, Hong Qin and Ronald C. Davidson , Phys. Plasmas 21 , 064505 (2014).
5. 
What is the fate of runaway positrons in tokamaks? Jian Liu, Hong Qin, Nathaniel J. Fisch, Qian Teng and Xiaogang Wang, Phys. Plasmas 21, 064503 (2014).
6. 
Analytical methods for describing charged particle dynamics in general focusing lattices using generalized Courant-Snyder theory, Hong Qin, Ronald C. Davidson, Joshua W. Burby and Moses Chung, Physical Review Special Topics – Accelerators and Beams 17, 044001 (2014).
7. 
Canonicalization and symplectic simulation of the gyrocenter dynamics in time-independent magnetic fields, Ruili Zhang, Jian Liu, Yifa Tang, Hong Qin, Jianyuan Xiao and Beibei Zhu, Phys. Plasmas 21, 032504 (2014)
8. 
Hamiltonian Mechanics of Stochastic Acceleration, J. W. Burby, A. I. Zhmoginov, and H. Qin, Phys. Rev. Lett. 111, 195001 (2013).
9. 
A variational multi-symplectic particle-in-cell algorithm with smoothing functions for the Vlasov-Maxwell system, Jianyuan Xiao, Jian Liu , Hong Qin, and Zhi Yu, Phys. Plasmas 20, 102517 (2013).
10. 
On plasma rotation induced by waves in tokamaks, Xiaoyin Guan, I. Y. Dodin, Hong Qin, Jian Liu, and N. J. Fisch, Phys. Plasmas 20, 102105 (2013).
11. 
Generalized Courant-Snyder Theory for Charged-Particle Dynamics in General Focusing Lattices, Hong Qin, Ronald C. Davidson, Moses Chung, and Joshua W. Burby, Phys. Rev. Lett. 111, 104801 (2013).
12. 
Why is Boris algorithm so good? Hong Qin, Shuangxi Zhang, Jianyuan Xiao, Jian Liu, Yajuan Sun, and William M. Tang, Phys. Plasmas 20, 084503 (2013).
13. 
Class of Generalized Kapchinskij-Vladimirskij Solutions and Associated Envelope Equations for High-Intensity Charged-Particle Beams , Hong Qin and Ronald C. Davidson, Phys. Rev. Lett. 110, 064803 (2013). 

14. The Hamiltonian structure and Euler-Poincaré formulation of the Vlasov-Maxwell and gyrokinetic systems J. Squire, H. Qin, W. M. Tang, and C. Chandre, Phys. Plasmas.
15. 
On the toroidal plasma rotations induced by lower hybrid waves, Xiaoyin Guan, Hong Qin, Jian Liu, and Nathaniel J. Fisch, Phys. Plasmas.
16. 
Toroidal precession as a geometric phase, J. W. Burby and H. Qin, Phys. Plasmas 20, 012511 (2013)
17. 
Woltjer-Taylor State without Taylor’s Conjecture: Plasma Relaxation at all Wavelengths, Hong Qin, Wandong Liu, Hong Li, and Jonathan Squire, Phys. Rev. Lett. 109, 235001 (2012).
18. 
Gyrosymmetry: Global considerations, J. W. Burby and H. Qin, Phys. Plasmas 19, 052106 (2012)
19. 
Geometric phase of the gyromotion for charged particles in a time-dependent magnetic field, J. Liu and H. Qin, Physics of Plasmas 18, 072505 (2011).
20. 
Centroid and envelope dynamics of high-intensity charged particle beams in an external focusing lattice and oscillating wobbler, H. Qin, R. C. Davidson, and B. Grant Logan, Phys. Rev. Lett. 104, 254801 (2010).
21. 
Generalized Kapchinskij-Vladimirskij Distribution and Envelope Equation for High-Intensity Beams in a Coupled Transverse Focusing Lattice, H. Qin, M. Chung, and R. C. Davidson, Phys. Rev. Lett. 103, 224802 (2009).
22. 
A Variational Symplectic Integrator for the Guiding Center Motion of Charged Particles for Long Time Simulations in General Magnetic Fields, H. Qin and X. Guan, Phys. Rev. Lett. 100, 035006 (2008).
23. 
Geometric Gyrokinetic Theory for Edge Plasmas, H. Qin, R. H. Cohen, W. M. Nevins, and X. Q. Xu, Physics of Plasmas 14, 056110 (2007).
24. 
An Exact Magnetic Moment Invariant of Charged Particle Gyromotion, H. Qin and R. C. Davidson, Phys. Rev. Lett. 96, 085003 (2006).
25. 
Pull-back Transformation in Gyrokinetic Theory, H. Qin and W. M. Tang, Physics of Plasmas 11, 1052 (2004).
26. 
Gyro-center Gauge Kinetic Theory, H. Qin, W. M. Tang, and W. W. Lee, Physics of Plasmas 7, 4433 (2000)
27. 
3D Multispecies Nonlinear Perturbative Particle Simulations of Collective Processes in Intense Particle Beams, H. Qin, R. C. Davidson, and W. W. Lee, Physical Review Special Topics -- Accelerators and Beams 3, 084401 (2000).
28. 
Linear Gyrokinetic Theory for Kinetic Magnetohydrodynamics Eigenmodes in Tokamak Plasmas, H. Qin, W. M. Tang, and G. Rewoldt, Physics of Plasmas 6, 2544-2562 (1999).
29. 
Gyrokinetic Perpendicular Dynamics, H. Qin, W. M. Tang, W. W. Lee, G. Rewoldt, Physics of Plasmas 6, 1575-1588 (1999).
30. 
Gyrokinetic Theory for Arbitrary Wavelength Electromagnetic Modes in Tokamaks, H. Qin, W.M. Tang and G. Rewoldt, Physics of Plasmas 5, 1035 (1998).

 

 

 
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