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Jian Chen

陈坚 副教授

电子邮箱:chenjian5@mail.sysu.edu.cn

研究领域:等离子体湍流;聚变等离子体;低温等离子体;动理学理论与模拟

教育经历:

2015年9月至2021年6月:博士

清华大学工程物理系

2018年12月-2020年12月:CSC博士生

美国普林斯顿等离子体物理实验室(PPPL)

2011年9月-2015年6月:学士

西安交通大学,能源动力系统及自动化

 
经历: 

2025年4月至今,副教授

中山大学,中法核工程与技术学院

2021年9月至2025年4月,中山大学“百人计划”引进助理教授

中山大学,中法核工程与技术学院

科研项目:
  1. 国家自然科学基金青年项目,电子束等离子体放电中强朗缪尔湍流的三维粒子模拟与理论研究,2024-2026,主持
  2. 广东省自然科学基金面上项目,低温载流等离子体中电流驱动动理学湍流的三维粒子模拟研究,2023-2025,主持
  3. 国家自然科学基金面上项目,等离子体衰亡过程中的鞘层特性和粒子输运行为研究,2018-2021,参与
  4. 国家自然科学基金面上项目,大气压直流放电模式及等离子体关键参数调控机制研究,2021-2024,参与

 

科研成果:

论文:

  1. Jian Chen, Andrew T. Powis, Igor D. Kaganovich, Zhibin Wang, and Yi Yu, Three-dimensional helical-rotating plasma structures in beam-generated partially magnetized plasmas, Phys. Rev. Letts. Accepted (2025).(DOI: https://doi.org/10.1103/77dq-hxtq
  2. Huidong Huang,Jian Chen, and Zhibin Wang, Particle-In-Cell simulations of the filamentation process in magnetized radio-frequency plasmas, Plasma Sources Sci. Technol. 34, 055012 (2025).
  3. Biemeng Jin, Jian Chen, Guangyu Sun, Zhibin Wang, and Haomin Sun, Oblique streaming waves observed in multipactor-induced plasma discharge above a dielectric surface, Plasma Sources Sci. Technol. 33, 06LT01 (2024). 
  4. Jian Chen, Alexander V. Khrabrov, Igor D. Kaganovich, and Heping Li, Intermittency, bursty turbulence, and ion and electron phase-space holes formation in collisionless current-carrying plasmas, Phys. Plasmas 31, 042112 (2024).
  5. H. -M. Sun, J. Chen, I. D. Kaganovich, A. V. Khrabrov, and D. Sydorenko, “Electron modulational instability in the strong turbulent regime for an electron beam propagating in a background plasma”, Physical Review Letters 129, 125001 (2022). 
  6. H. -M. Sun, J. Chen, I. D. Kaganovich, A. V. Khrabrov, and D. Sydorenko, “Physical regimes of electrostatic wave-wave nonlinear interactions generated by an electron beam propagating in a background plasma”, Physical Review E 106, 035203 (2022). 
  7. H. -M. Sun, J. Chen, G. -Y. Sun, and L. Xu, “Analytical model for estimating the equilibrium plasma quantities in an electron beam–plasma system”, J. Appl. Phys. 136, 093302 (2024). 
  8. S. Zhang, G. Y. Sun, J. Chen, H. M. Sun, A. B. Sun, and G. J. Zhang, “On the Ohmic-dominant heating mode of capacitively coupled plasma inverted by boundary electron emission”. Applied Physics Letters 121, 014101 (2022). 
  9. Biemeng Jin, Jian Chen, Alexander V. Khrabrov, Zhibin Wang, and Liang Xu, Particle-in-cell simulations of the direct-current argon breakdown process in the 10-300 kV range, Plasma Sources Sci. Technol. 31, 115015 (2022). 
  10. C. Fang, J. Chen, J. Li, Z. -M. Zhang, H. Guo, Z. -H. Li, S. Zeng, and H. -P. Li, “Analyses on the nonequilibrium transport processes in a free-burning argon arc plasma under different operating conditions”, Plasma Sources Science and Technology 31, 015015 (2022).
  11. J. Chen, A. Khrabry, I. D. Kaganovich, A. Khodak, V. Vekselman, and H. -P. Li, “Validated two-dimensional modeling of short carbon arcs: anode and cathode spot”, Physics of Plasmas 27, 083511 (2020). 
  12. J. Chen, A. V. Khrabrov, Y. -T. Wang, J. Li, H. -P. Li, D. -J. Jiang, and M. -S. Zhou, “Beam-assisted extraction of charged particles from a decaying plasma”, Plasma Sources Science and Technology 29, 025010 (2020). 
  13. J. Chen, T. -Z. Fu, H. Guo, H. -P. Li, D. -J. Jiang, and M. -S. Zhou, “Effects of electron temperature on the ion extraction characteristics in a decaying plasma confined between two parallel plates”, Plasma Science and Technology 21, 045402 (2019).