Nonplanar ion-acoustic subsonic shock waves in dissipative electron-ion-pcd plasmas

A. Mamun, B. Sharmin
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引用次数: 8

Abstract

The dissipative electron-ion-pcd (positively charged dust) plasma, which is observed in both space and laboratory plasmas, is considered. The basic features of nonplanar cylindrical and spherical ion-acoustic subsonic shock waves in such a medium are investigated by deriving a modified Burgers equation using the reductive perturbation method. It is found that the stationary pcd species reduces the phase speed of the ion-acoustic waves, and consequently supports the subsonic shock waves due to the kinematic viscosity (acting as a source of dissipation) of the ion species. It is observed that the cylindrical and spherical subsonic shock waves evolve with time very significantly, and that the time evolution of the spherical shock structures is faster than that of the cylindrical ones. The implications of the results of the work to space and laboratory plasmas are discussed.
耗散电子-离子-等离子体中的非平面离子-声学亚音速激波
考虑了在空间等离子体和实验室等离子体中观测到的电子-离子-pcd(正电荷尘埃)耗散等离子体。利用约化微扰法推导了修正的Burgers方程,研究了非平面圆柱形和球形离子声亚音速激波在这种介质中的基本特征。研究发现,由于离子的运动粘度(作为耗散源),固定的pcd物质降低了离子声波的相速度,从而支持亚音速激波。观察到圆柱形和球形亚音速激波随时间的演化非常显著,且球形激波结构的时间演化速度快于圆柱形结构。讨论了研究结果对空间等离子体和实验室等离子体的影响。
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