Anisotropic MHD model and some solutions

Kuznetsov, V D; Dzhalilov, N S

doi:10.1134/S1063780X10090059

Title: Anisotropic MHD model and some solutions

Journal Article · Wed Sep 15 00:00:00 EDT 2010 · Plasma Physics Reports

DOI:https://doi.org/10.1134/S1063780X10090059· OSTI ID:21443460

Kuznetsov, V D ^[1]; Dzhalilov, N S ^[2]

Russian Academy of Sciences, Pushkov Institute of Terrestrial Magnetism, Ionosphere, and Radio Wave Propagation (Russian Federation)
Academy of Sciences of Azerbaijan, Shemakha Astrophysical Observatory (Azerbaijan)

MHD waves and instabilities in a collisionless anisotropic-pressure plasma are analyzed in an anisotropic MHD model based on the 16-moment approximation, and the results are found to agree well with those obtained in the low-frequency limit of the kinetic model. It is shown that accounting for heat fluxes leads to an asymmetry in the phase velocities of the wave modes with respect to the heat flux direction and also to a strong interaction between the modes, especially between the backward ones (those that propagate in a direction opposite to that of the heat flux). A correct description of the mirror instability is given. The resonant interaction of three backward modes-fast acoustic, fast magnetosonic, and slow acoustic-under the conditions for the onset of the classical firehose instability triggers a new type of instability the growth rate of which is faster than the maximum growth rate of the conventional firehose instability. The results prove that, in contrast to the familiar Chew-Goldberger-Low approximate model, the anisotropic MHD approach provides a correct description of the large-scale dynamics of collisionless anisotropic plasmas (such as solar corona, solar wind, and ionospheric and magnetospheric plasmas).

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OSTI ID:: 21443460

Journal Information:: Plasma Physics Reports, Vol. 36, Issue 9; Other Information: DOI: 10.1134/S1063780X10090059; Copyright (c) 2010 Pleiades Publishing, Ltd.; ISSN 1063-780X

Country of Publication:: United States

Language:: English

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