Sagdeev potential approach for large amplitude compressional Alfvenic double layers in viscous plasmas

Abstract

Sagdeev's technique is used to study the large amplitude compressional Alfvenic double layers in a magnetohydrodynamic plasma taking into account the small plasma beta and small values of kinematic viscosity. Dispersive effect raised by non-ideal electron inertia currents perpendicular to the ambient magnetic field. The range of allowed values of the soliton speed, M (Mach number), plasma beta (ratio of the plasma thermal pressure to the pressure in the confining magnetic field), and viscosity coefficient, wherein double layer may exist, are determined. In the absence of collisions, viscous dissipation modifies the Sagdeev potential and results in large amplitude compressional Alfvenic double layers. The depth of Sagdeev potential increases with the increasing Mach number and plasma beta, however, decreases with the increasing viscosity. The double layer structure increases with the increasing plasma beta, but decreases with increasing viscous dissipation (mu) over tilde. (C) 2013 AIP Publishing LLC.