Energy transfer, pressure tensor, and heating of kinetic plasma

被引:134
|
作者
Yang, Yan [1 ,2 ]
Matthaeus, William H. [2 ]
Parashar, Tulasi N. [2 ]
Haggerty, Colby C. [2 ]
Roytershteyn, Vadim [3 ]
Daughton, William [4 ]
Wan, Minping [5 ]
Shi, Yipeng [1 ]
Chen, Shiyi [1 ,5 ]
机构
[1] Peking Univ, Coll Engn, Ctr Appl Phys & Technol, State Key Lab Turbulence & Complex Syst, Beijing 100871, Peoples R China
[2] Univ Delaware, Dept Phys & Astron, Newark, DC 19716 USA
[3] Space Sci Inst, Boulder, CO 80301 USA
[4] Los Alamos Natl Lab, Los Alamos, NM 87545 USA
[5] Southern Univ Sci & Technol China, Dept Mech & Aerosp Engn, Shenzhen 518055, Guangdong, Peoples R China
来源
PHYSICS OF PLASMAS | 2017年 / 24卷 / 07期
基金
美国国家科学基金会; 中国国家自然科学基金;
关键词
LARGE-EDDY SIMULATION; FINE-SCALE MOTIONS; SOLAR-WIND; MAGNETIC RECONNECTION; MAGNETOHYDRODYNAMIC TURBULENCE; CURRENT SHEETS; DISSIPATION; HYPOTHESIS; EVOLUTION; VORTICITY;
D O I
10.1063/1.4990421
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
Kinetic plasma turbulence cascade spans multiple scales ranging from macroscopic fluid flow to sub-electron scales. Mechanisms that dissipate large scale energy, terminate the inertial range cascade, and convert kinetic energy into heat are hotly debated. Here, we revisit these puzzles using fully kinetic simulation. By performing scale-dependent spatial filtering on the Vlasov equation, we extract information at prescribed scales and introduce several energy transfer functions. This approach allows highly inhomogeneous energy cascade to be quantified as it proceeds down to kinetic scales. The pressure work, -(P . del) . u, can trigger a channel of the energy conversion between fluid flow and random motions, which contains a collision-free generalization of the viscous dissipation in collisional fluid. Both the energy transfer and the pressure work are strongly correlated with velocity gradients. Published by AIP Publishing.
引用
收藏
页数:14
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