Impact of temperature asymmetry and small fraction of static positive ions on the relaxed states of a relativistic hot pair plasma

Usman Shazad, M. Iqbal
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引用次数: 1

Abstract

Abstract The relaxed state of a magnetized relativistic hot plasma composed of inertial electrons and positrons having different relativistic temperatures and a fraction of static positive ions is studied. From the steady-state solutions of vortex dynamics equations and the relation for current density, a non-force-free triple Beltrami (TB) relaxed state equation is derived. The TB state is characterized by three scale parameters that consequently provide three different self-organized structures. The analysis of the relaxed state shows that for specific values of generalized helicities, the disparity in relativistic temperature and the existence of a small fraction of static positive ions in pair plasma can transform the nature of scale parameters. Moreover, an analytical solution of the TB state for an axisymmetric cylindrical geometry with an internal conductor configuration demonstrates that due to asymmetries of temperature and density of plasma species, diamagnetic structures can transform into paramagnetic ones and vice versa. The present study will improve our understanding of pair plasmas in trap-based plasma confinement experiments and astrophysical environments.
温度不对称和少量静态正离子对相对论热对等离子体弛豫态的影响
摘要研究了由具有不同相对论温度的惯性电子和正电子以及一部分静态正离子组成的磁化相对论热等离子体的弛豫状态。从涡旋动力学方程的稳态解和电流密度的关系出发,导出了一个非无力的三重Beltrami (TB)松弛状态方程。TB状态由三个尺度参数表征,从而提供三种不同的自组织结构。对弛豫态的分析表明,对于特定的广义螺旋度值,相对论温度的差异和对等离子体中少量静态正离子的存在可以改变尺度参数的性质。此外,对具有内导体结构的轴对称圆柱结构的TB态的解析解表明,由于等离子体种类的温度和密度的不对称性,抗磁性结构可以转变为顺磁性结构,反之亦然。本研究将提高我们对基于陷阱的等离子体约束实验和天体物理环境的对等离子体的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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