Educational Background
09/2005 – 06/2010
· Master's and Ph.D. in Plasma Physics, Department of Modern Physics, University of Science and Technology of China
· Supervisor: Professor Li Ding
09/2001 – 07/2005
· Bachelor's in Plasma Physics, School of the Gifted Young, University of Science and Technology of China
· Supervisor: Professor Li Ding
Work Experience
04/2017 – Present
· Associate Professor, School of Physical Sciences, University of Science and Technology of China
09/2018 – 09/2019
· Visiting Scholar, Lawrence Livermore National Laboratory, USA
09/2012 – 09/2018
· Distinguished Associate Professor, School of Physical Sciences, University of Science and Technology of China
09/2010 – 09/2011
· Senior Assistant Researcher, Plasma Laboratory, City University of Hong Kong
06/2010 – 09/2012
· Postdoctoral Researcher, Key Laboratory of Basic Plasma Physics, Chinese Academy of Sciences, University of Science and Technology of China
Courses Taught
1. Introduction to Plasma Physics, Fall Semester 2013, Undergraduate Course, 80 hours, Sole Instructor
2. Electrodynamics, Spring Semester 2014, Undergraduate Course, 80 hours, Co-Instructor
3. Introduction to Plasma Physics, Fall Semester 2014, Undergraduate Course, 80 hours, Sole Instructor
4. Electrodynamics, Spring Semester 2020/Spring Semester 2021, Undergraduate Course, 80 hours, Sole Instructor
5. Plasma Electromagnetic Fluid Dynamics, Spring Semester 2021, Graduate Course, 80 hours, Sole Instructor
Projects Undertaken
1. Research on Frontier Fundamental Problems in Magnetic Confinement Fusion Physics, Ministry of Science and Technology, National Magnetic Confinement Fusion Energy Science Program, 2.4 million CNY, Principal Investigator, 01/2015 - 12/2019
2. Study on the Impact of High-Energy Particles on Geodesic Acoustic Modes in Tokamak Plasmas, National Natural Science Foundation of China, General Program, 680,000 CNY, Principal Investigator, 01/2017 - 12/2020
3. Magnetic Rotational Instability in Two-Fluid Model, National Natural Science Foundation of China, Young Scientists Fund, 280,000 CNY, Principal Investigator, 01/2012 - 12/2014
4. mpact of Toroidal Rotation on Local Geodesic Acoustic Modes, University of Science and Technology of China, Youth Innovation Research Fund, 100,000 CNY, Principal Investigator, 01/2013 - 12/2014
5. Study on Magnetic Rotational Instability in Plasmas, National Natural Science Foundation of China, General Program, 400,000 CNY, Co-Investigator and Actual Performer (Principal Investigator: Wu Zhengwei), 01/2011 - 12/2013
Publications
Dedicated to theoretical research in plasma physics, Mr. Ren's research directions cover low-temperature high-density plasma, space plasma, and plasma physics in inertial and magnetic confinement fusion. His recent work has focused on theoretical studies of geodesic acoustic modes and zonal flows in tokamak plasmas, which systematically investigated the impact of phenomena induced by toroidal rotation, anisotropy, and high-energy particles during various auxiliary heating processes on geodesic acoustic modes. He has published 34 papers as the first or corresponding author in international journals such as Nuclear Fusion, Astrophysical Journal, Plasma Physics and Controlled Fusion, and Physics of Plasmas. His single paper has been cited up to 77 times (Google Scholar), with a total of more than 436 citations.
Haijin Ren, Lai Wei, Debing Zhang, and X. Q. Xu, “Global geodesic acoustic mode in an ideal magnetohydrodynamic tokamak plasma”, Physics of Plasmas 27, 042504(2020).
Haijun Ren and X. Q. Xu, “Excitation of zonal flow by nonlinear geodesic acoustic mode”, Physics of Plasmas 27, 034501 (2020).
Wenlong Huang, Haijun Ren*, and X. Q. Xu, “Electromagnetic effect on geodesic acoustic mode with adiabatic electrons”, Physics of Plasmas26, 022506 (2019).
Haijun Ren and Hao Wang, “Geodesic acoustic mode driven by energetic particles with bump-on-tail distribution”, Nuclear Fusion 58, 046005 (2018).
Haijun Ren, “Geodesic acoustic mode in a reduced two fluid model”,Plasma Sci. Technol. 19, 122001 (2017).
Haijun Ren, “Finite-orbit-width effects on the geodesic acoustic mode in the toroidally rotating tokamak plasma”, Physics of Plasmas24, 054504 (2017).
Haijun Ren, “Energetic Particle Driven Geodesic Acoustic Mode in a Toroidally Rotating Tokamak Plasma”, Nuclear Fusion 57, 016023 (2017).
Haijun Ren and X. Q. Xu, “Analytical Collisionless Damping Rate of Geodesic Acoustic Mode”, Nuclear Fusion56, 106008 (2016).
Haijun Ren, “The residual zonal flows in anisotropic tokamak plasmas”, Physics of Plasmas23, 064507 (2016).
Haijun Ren, “Geodesic Acoustic Mode in Anisotropic Plasma with Heat Flux”, Physics of Plasmas22, 102505 (2015).
Haijun Ren, “Geodesic Acoustic Mode in Toroidally Rotating Anisotropic Tokamaks”, Physics of Plasmas22, 072502 (2015).
Haijun Ren and Jintao Cao, “Landau Damping of Geodesic Acoustic Mode in Toroidally Rotating Tokamaks”, Physics of Plasmas22, 062501 (2015).
Haijun Ren and Jintao Cao, “Geodesic Acoustic Mode in anisotropic plasmas using double adiabatic model and gyro-kinetic equation”, Physics of Plasmas21, 122512 (2014).
Haijun Ren and Chao Dong, “Effects of passing energetic particles on geodesic acoustic mode”, Physics of Plasmas 21, 102506 (2014).
Haijun Ren, “Perturbation analysis of electromagnetic geodesic acoustic modes”, Physics of Plasmas 21, 064502 (2014).
Haijun Ren, “Zonal flows in tokamaks with anisotropic pressure”, Physics of Plasmas 21, 044505 (2014).
Haijun Ren, Ding Li, and Paul K Chu, “Geodesic Acoustic Modes in toroidally rotating tokamaks with an arbitrary β”, Physics of Plasmas 20, 072504 (2013).
Haijun Ren, Jintao Cao, Ding Li, and Paul K Chu, “Magnetorotational instability in plasmas with mobile dust grains”, Physics of Plasmas20, 032102 (2013).
Haijun Ren, “Effect of Toroidal Rotation on the Geodesic Acoustic Mode inMagnetohydrodynamics”, Physics of Plasmas19, 094502 (2012).
Haijun Ren, Jintao Cao, and Zhengwei Wu, “Magneto-rotational instability in a collisional weakly ionized plasma”, Astrophys. J. 754, 128 (2012).
Haijun Ren, Jintao Cao, Zhengwei Wu, and Paul K. Chu, “Magnetorotational instability in a collisionless plasma with heat flux vectorand an isotropic plasma with self-gravitational effect”, Physics of Plasmas18, 092117 (2011).
Haijun Ren, Jintao Cao, Zhengwei Wu, and Paul K. Chu, “Magnetorotational instability in a two-fluid model”, Plasma Physics and Controlled Fusion53,065021 (2011).
Haijun Ren, Jintao Cao, Zhengwei Wu, and Paul K. Chu, “Anisotropic dissipative effects on the buoyancy instability with background heat flux”, Physics of Plasmas 18, 032106 (2011).
Haijun Ren, Jintao Cao, Chao Dong, Zhengwei Wu, and Paul K. Chu, “Coupling of Kelvin-Helmholtz instability and buoyancy instability in a thermal laminar plasma”, Physics of Plasmas 18, 022110 (2011).
Haijun Ren, Zhengwei Wu, Jintao Cao, Chao Dong, and Paul K. Chu, “Density gradient effects on the magnetorotational instability”, Plasma Physics and Controlled Fusion53, 035012 (2011).
Haijun Ren, Zhengwei Wu, Dong Chao, Pual K. Chu, “Thermal convective and rotational instability in dissipative magnetohydrodynamics”, Physics of Plasmas17, 052102 (2010).
Haijun Ren, Zhengwei Wu, Jintao Cao, Paul K. Chu, and Ding Li, “Magnetothermal instability in weakly magnetized plasmas with anisotropicresistivity and viscosity”, Physics of Plasmas17, 042117 (2010).
Haijun Ren, Zhengwei Wu, Jintao Cao, and Paul K. Chu, “Magnetorotational instability in dissipative dusty plasmas”, Physics of Plasmas16, 122107 (2009).
Haijun Ren, Zhengwei Wu, Jintao Cao, and Paul K. Chu, “Magnetothermal instability of plasmas in a horizontal magnetic field”, Physics of Plasmas16, 102109(2009).
Haijun Ren, Zhengwei Wu, Jintao Cao, and Paul K. Chu, “Electrostatic drift modes in quantum dusty plasmas with Jeans terms”, Physics of Plasmas16, 103705 (2009).
Haijun Ren, Jintao Cao, and Zhengwei Wu, “Electrostatic drift modes in quantum pair plasmas”, Physics of Plasmas 15, 102108 (2008).
Haijun Ren, Zhengwei Wu, Jintao Cao and Paul K Chu, “Electromagnetic drift waves in nonuniform quantum magnetized electron-positron-ion plasmas”, J. Phys. A: Math. Theor.41, 115501 (2008).
Haijun Ren, Zhengwei Wu, Jintao Cao, and Paul K. Chu, “Dispersion of multi-stream instability in quantum magnetized hot plasmas”, Physics Letters A372, 2676 (2008).
Haijun Ren, Zhengwei Wu, and Paul K. Chu, “Dispersion of linear waves in quantum plasmas”, Physics of Plasmas14, 062102 (2007).
Lai Wei, F. Yu, Haijun Ren, and Z. X. Wang, “A fundamental understanding of the unstable eigenmodes of double tearing instabilities in a shear slab geometry”, AIP Advances 10,055111 (2020).
Chao Dong, Haijun Ren, Huishan Cai, and Ding Li, “Temperature relaxation in a magnetized plasma”, Physics of Plasmas20, 102518 (2013).
Chao Dong, Haijun Ren, Huishan Cai, and Ding Li, “Effects of magnetic field on anisotropic temperature relaxation”, Physics of Plasmas20, 032512 (2013).
Zhengwei Wu, Haijun Ren, Jintao Cao, and Paul K. Chu, “The effect of the Hall term on Jeans instability in quantum magnetoplasmawith resistive effects”, Physics of Plasmas17, 064503 (2010).
Zhengwei Wu, Haijun Ren, Jintao Cao, and Paul K. Chu, “Electrostatic drift waves in nonuniform quantum magnetized plasmas”, Physics of Plasmas15, 082103 (2008).
Jintao Cao, Haijun Ren, Zhengwei Wu, and Paul K. Chu, “Quantum effects on Rayleigh–Taylor instability in magnetized plasma”, Physics of Plasmas15, 012110 (2008).
Chunhua Li, Zhengwei Wu, Haijun Ren, Weihong Yang, and Paul K Chu, “Group velocity of extraordinary waves in superdense magnetized quantum plasma with spin-1/2 effects”, Physics of Plasmas19, 122114 (2012).
Jintao Cao, Zhengwei Wu, Haijun Ren, and Ding Li, “Richtmyer–Meshkov instability of a stratified fluid in transversemagnetic field”, Physics of Plasmas16, 062103 (2009).
Jintao Cao, Zhengwei Wu, Haijun Ren, and Ding Li, “Effects of shear flow and transverse magnetic field on Richtmyer–Meshkov instability”, Physics of Plasmas15, 042102 (2008).
Statistics
Among the papers with Mr. Ren as the first or corresponding author:
5 papers are in the field of dense plasma physics
1 papers are in the field of astrophysical plasma physics
18 papers are in the field of magnetically confined fusion plasma physics
Address: Department of Engineering and Applied Physics, University of Science and Technology of China, Hefei, Anhui, China
Phone:
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