Dust-acoustic wave electrostatic and self-gravitational potentials in an opposite polarity dusty plasma system

A. Mannan, S. de Nicola, R. Fedele, A. Mamun
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引用次数: 6

Abstract

An opposite polarity dusty plasma system (containing a few micron size massive opposite polarity dust species and singly charged ion species following Boltzmann law) is considered. The nature of dust-acoustic (DA) wave electrostatic and self-gravitational potentials are correctly found by the numerical analysis of two coupled second-order nonlinear differential equations for electrostatic and self-gravitational potentials associated with the DA waves in such an opposite polarity dusty plasma medium. These coupled nonlinear differential equations are derived from the continuity and momentum equations for positive and negative dust species, and the Boltzmann law for ion species. The basic features of the DA wave self-gravitational potential are compared with that of the DA wave electrostatic potential. The relevance of our results to space and laboratory opposite polarity dusty plasma systems is mentioned.
反极性尘埃等离子体系统中的尘埃声波静电和自引力势
考虑了一个反极性尘埃等离子体系统(包含几微米大小的大质量反极性尘埃和符合玻尔兹曼定律的单电荷离子)。通过数值分析在极性相反的尘埃等离子体介质中与尘声波相关的两个耦合二阶非线性微分方程,正确地揭示了尘声波的静电势和自引力势的性质。这些耦合的非线性微分方程是由正负尘埃种的连续性方程和动量方程以及离子种的玻尔兹曼定律导出的。比较了DA波自引力势和DA波静电势的基本特征。我们的结果与空间和实验室的相反极性尘埃等离子体系统的相关性被提到。
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