Yanpeng Wang
I am a physicist dedicated to constructing a novel framework for solving nonlinear Maxwell-Vlasov-Fokker-Planck (NLMVFP) equations of nonequilibrium stastics physics in plasma systems, named as Kinetic Moment-Closed Model (KMCM). This framework is a fully nonlinear model based on Finitely Distinguishable Independent Features (FDIF) hypothesis, employing Spherical Harmonics Expansion (SHE) couple with King Function Expansion (KFE) in velocity space. Two approaches are presented in NLMVFP system: a meshfree appoach and a moment approach. This framework of NLMVFP is designed for general nonequilibrium physics, tranport phenomena, turbulence flow simulation, magnetic reconnection, especially for fusion plasmas.
Publications
A conservative, implicit solver for 0D-2V multi-species nonlinear Fokker-Planck collision equations
Yanpeng Wang, Jianyuan Xiao, Yifeng Zheng, Zhihui Zou, Pengfei Zhang and Ge Zhuang
Higher-order moment convergent method in weakly anisotropic plasma and the NLVFP code for solution of the 0D-2V Vlasov-Fokker-Planck equation
Yanpeng Wang
General relaxation model for a homogeneous plasma with spherically symmetric velocity space
Yanpeng Wang, Shichao Wu and Peifeng Fan