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Paper detail

Energy Dissipation and Entropy in Collisionless Plasma

It is well known that collisionless systems are dissipation free from the perspective of particle collision and thus conserve entropy. On the other hand, processes such as magnetic reconnection and turbulence appear to convert large-scale magnetic energy into heat. In this paper, we investigate the energization and heating of collisionless plasma. The dissipation process is discussed in terms of fluid entropy in both isotropic and gyrotropic forms. Evolution equations for the entropy are derived and they reveal mechanisms that lead to changes in fluid entropy. These equations are verified by a collisionless particle-in-cell simulation of multiple reconnecting current sheets. In addition to previous findings regarding the pressure tensor, we emphasize the role of heat flux in the dissipation process.

preprint2019arXivOpen access
Senbei DuGary P. ZankFan GuoXiaocan Li
physics.space-phphysics.plasm-phastro-ph.SR
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Senbei DuGary P. ZankFan GuoXiaocan Li

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