Reduction of compressibility and parallel transfer by Landau damping in turbulent magnetized plasmas

Details Reduction of compressibility and parallel transfer by Landau damping in turbulent magnetized plasmas Reduction of compressibility and parallel transfer by Landau damping in turbulent magnetized plasmas

2011-09-12

arxiv.org/abs/1109.2636v1

Physics

Plasma Physics

Scientific paper

Three-dimensional numerical simulations of decaying turbulence in a magnetized plasma are performed using a so-called FLR-Landau fluid model which incorporates linear Landau damping and finite Larmor radius (FLR) corrections. It is shown that compared to simulations of compressible Hall-MHD, linear Landau damping is responsible for significant damping of magnetosonic waves, which is consistent with the linear kinetic theory. Compressibility of the fluid and parallel energy cascade along the ambient magnetic field are also significantly inhibited when the beta parameter is not too small. In contrast with Hall-MHD, the FLR-Landau fluid model can therefore correctly describe turbulence in collisionless plasmas such as the solar wind, providing an interpretation for its nearly incompressible behavior.

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