Parallel proton fire hose instability in gyrotropic Hall MHD model

Physics – Plasma Physics

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Space Plasma Physics: Kinetic And Mhd Theory, Space Plasma Physics: Kinetic Waves And Instabilities, Space Plasma Physics: Mhd Waves And Instabilities (2149, 2752, 6050), Space Plasma Physics: Nonlinear Phenomena (4400, 6944), Space Plasma Physics: Turbulence (4490)

Scientific paper

The linear theory and nonlinear evolution of parallel or classical fire hose instability previously studied based on hybrid particle simulations are examined within the framework of a gyrotropic Hall magnetohydrodynamic (MHD) model that incorporates the ion inertial effects arising from the Hall current but neglects the electron inertia in the generalized Ohm's law. Both the ion cyclotron and whistler waves become fire hose unstable for β$\parallel$ - β$\perp$ > 2 + λi2k2/2 with right-handed circular polarization, where λi and k are the ion inertial length and wave number, respectively, implying that the ion inertia plays a stabilizing role in parallel fire hose instability. Substantial noncoplanar components of the magnetic field and flow velocity may develop as a result of Hall current. The evolution characteristics of magnetic field fluctuations may depend on the Hall parameter h = λi/λr, where λr is the resistive length. For moderately and highly dispersive cases the instability may be purely growing in the early stage with the development of soliton-like structures with depressed magnetic field on the order of a few ion inertial lengths and become propagating with right-handed circular polarization in the late phase when the waves have inversely cascaded to large-amplitude Alfvén waves of longer wavelengths. Oscillatory and damping behavior resembling those found in the kinetic model may be reproduced for single-mode perturbations of long wavelengths with h ≤ 1. The saturated magnetic field is found to comply with the quasi-linear theory.

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