运动粘度对困电子等离子体中电子声柱面和球面孤立波影响的研究

Subrata Roy, Sandip Saha, S. Raut, A. Das
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引用次数: 6

摘要

. 本文利用标准约化微扰技术(RPT)对由固定离子、冷电子和热电子组成的服从涡状分布的等离子体的基本控制方程,导出了非平面Schamel Burger (NSB)方程。为了研究电子声(EA)的传播特性,采用加权残差法(WRM)获得了电子声的进行波解。大多数对EA波的观测都局限于等离子体环境,其中粘度、碰撞、离子流速度的影响完全被忽略。在我们目前的观察中,考虑到由于内部粒子碰撞和粘性而产生的弱阻尼(通过添加Burgers项),描述了EA波在粘性等离子体中的传播。特别注意研究了在Schamel Burgers介质框架下其他物理参数对波传播的影响。
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Studies on the effect of kinematic viscosity on electron-acoustic cylindrical and spherical solitary waves in a plasma with trapped electrons
. In this article, using the standard reductive perturbation technique (RPT) to the basic governing equations for plasma comprising stationary ions, cold electrons and hot electrons abiding by vortex-like distribution, nonplanar Schamel Burger (NSB) equations is derived. In order to study the propagating properties of Electron acoustic (EA), progressive wave solution is obtained by employing the weighted residual method (WRM). Most of the observations of the EA wave are limited to the plasma environment where the effects of viscosity, collisions, ion streaming velocity are totally neglected. In our present observation, propagation of EA waves in a viscous plasma is described considering a weak damping (by adding a Burgers term) due to the inner particle collision and viscosity. Special attention has been given to study the impact of the other physical parameters in wave propagation in the framework of the Schamel Burgers medium.
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CiteScore
2.00
自引率
10.00%
发文量
30
审稿时长
25 weeks
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