Contact Information:

Email: fan_zhengfeng@iapcm.ac.cn

Tel: 010-59872144

Homepage: 

Education:
September 1999 to July 2003, Engineering Mechanics, Tianjin University, Bachelor’s Degree

September 2003 to March 2008, Fluid Mechanics, Tianjin University, Master’s Degree and Doctor’s Degree

Research Areas:

Interfacial Hydrodynamic Instabilities, Implosion Hydrodynamics and Computational Radiation Hydrodynamics

Interested Research Areas in CAPT：

Interfacial Hydrodynamics and Turbulence at High Energy Density

Grants and Awards：

Second Prize of Military Science and Technology Progress Award in 2017

Selected Publications：

1.     Zhengfeng Fan, Jisheng Luo, and Wenhua Ye, Weakly nonlinear ablative Rayleigh–Taylor instability at preheated ablation front, Physics of Plasmas 16, 102104 (2009).

2.     Zhengfeng Fan, Shaoping Zhu, Wenbing Pei, Wenhua Ye, Meng Li, Xiaowen Xu, Junfeng Wu, Zhensheng Dai and Lifeng Wang, Numerical investigation on the stabilization of the deceleration phase Rayleigh-Taylor instability due to alpha particle heating in ignition target, EPL, 99, 65003 (2012).

3.     Zhengfeng Fan, X. T. He, Jie Liu, Guoli Ren, Bin Liu, Junfeng Wu, L. F. Wang, and Wenhua Ye, A wedged-peak-pulse design with medium fuel adiabat for indirect-drive fusion, Physics of Plasmas 21, 100705 (2014).

4.     Zhengfeng Fan, Jie Liu, Bin Liu, Chengxin Yu, and X. T. He, Ignition conditions relaxation for central hot-spot ignition with an ion-electron nonequilibrium model, Physics of Plasmas 23, 010703 (2016).

Pubilications in past five years：

1.     Zhengfeng Fan, X. T. He, Jie Liu, Guoli Ren, Bin Liu, Junfeng Wu, L. F. Wang, and Wenhua Ye, A wedged-peak-pulse design with medium fuel adiabat for indirect-drive fusion, Physics of Plasmas 21, 100705 (2014).

2.     Wenjun Sun, Zhengfeng Fan, Adaptive Mesh Refinement Kinetic Scheme for Equations of Radiation Hydrodynamics, Chinese Journal of Computational Physics, 32(3), 277-292 (2014).

3.     Jianfa Gu, Zhensheng Dai, Zhengfeng Fan, Shiyang Zou, Wenhua Ye, Wenbing Pei, and Shaoping Zhu, A new metric of the low-mode asymmetry for ignition target designs, Physics of Plasmas 21, 012704 (2014).

4.     范征锋，刘杰，刘彬，于承新，贺贤土，离子-电子非平衡机制降低中心热斑点火条件，强激光与粒子束 27（8）：1-6 （2015）。

5.     Cong Wang, Zheng-Feng Fan, Xian-Tu He, Wen-Hua Ye, and Ping Zhang, Applications of deuterium- tritium equation of state based on density functional theory in inertial confinement fusion, Physics of Plasmas 22, 062708 (2015).

6.     Zhengfeng Fan, Jie Liu, Bin Liu, Chengxin Yu, and X. T. He, Ignition conditions relaxation for central hot-spot ignition with an ion-electron nonequilibrium model, Physics of Plasmas 23, 010703 (2016).

7.     X. T. He, J. W. Li, Z. F. Fan, L. F. Wang, J. Liu, K. Lan, J. F. Wu, and W. H. Ye, A hybrid-drive nonisobaric-ignition scheme for inertial confinement fusion, Physics of Plasmas 23, 082706 (2016).

8.     Zhengfeng Fan, Yuanyuan Liu, Bin Liu, Chengxin Yu, Ke Lan, and Jie Liu, Non-equilibrium between ions and electrons inside hot spots from National Ignition Facility experiments, Matter and Radiation at Extremes 2, 3-8 (2017).

9.     Yan Lu, Zhengfeng Fan, Xinpei Lu, Wenhua Ye, Changlin Zou, Ziyun Zhang, and Wen Zhang, The analysis of harmonic generation coefficients in the ablative Rayleigh-Taylor instability, Physics of Plasmas 24, 102705 (2017).

10.  C. X. Yu, C. Xue, J. Liu, X. Y. Hu, Y. Y. Liu, W. H. Ye, L. F. Wang, J. F. Wu, and Z. F. Fan*, Multiple eigenmodes of the Rayleigh-Taylor instability observed for a fluid interface with smoothly varying density, Physical Review E 97, 013102 (2018).