Dispersion relations for waves in visco-gravitating anisotropic magnetoplasmas
Tesfaye Desta, E; Hillier, A; Haile Eritro, T
Date: 5 April 2021
Journal
Physics of Plasmas
Publisher
AIP Publishing
Publisher DOI
Abstract
The effect of Braginskii’s full viscosity tensor on an infinite nonconducting, gravitating anisotropic plasma in which
the medium is trapped in a strong magnetic field is discussed in the context of Braginskii’s magnetohydrodynamic
model with Chew- Goldberger-Low(CGL) double adiabatic approximation and Finite Larmor Radius (FLR) ...
The effect of Braginskii’s full viscosity tensor on an infinite nonconducting, gravitating anisotropic plasma in which
the medium is trapped in a strong magnetic field is discussed in the context of Braginskii’s magnetohydrodynamic
model with Chew- Goldberger-Low(CGL) double adiabatic approximation and Finite Larmor Radius (FLR) correction.
Through linearization of the perturbed equations, the general dispersion relation is derived for the separate compression, shear and drift viscosity components as well as the FLR corrections. We investigate the stability for parallel and
transverse perturbations with respect to the direction of the magnetic field, and both gravitational and fire-hose instabilities are found. The role of each viscous term is to suppress instability, but each component works in different ways.
The FLR acts in a way that is very similar to the drift viscosity. The instability threshold is found to be independent
of viscosity for compression and shear viscosity, but the both the drift viscosity and FLR corrections can change the
critical wavenumber for the instability. The compression viscosity is most effective at reducing the growthrate of the
gravitational instability, whereas the shear viscosity works to suppress the fire-hose instability. The result of present
study may be useful for the study of large scale compression, shear and drift plasma flow in and around clusters of
galaxies, galactic disks and for the solar and stellar wind.
Mathematics and Statistics
Faculty of Environment, Science and Economy
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