电子束在磁化尘埃等离子体中激发低级混合波的动力学处理

IF 1.6 4区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY
Anshu, Suresh C. Sharma, Jyotsna Sharma
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引用次数: 0

摘要

我们使用涉及电子束的动力学处理方法研究了静电低混波(LHWs)的理论建模。该电子束在磁化的含尘等离子体圆柱体中传播,该圆柱体由尘粒、电子和带正电的钾离子(K +)组成。利用分析模型,通过切伦科夫相互作用激发 LHWs 会导致不稳定。为了解释带电尘粒群如何影响受电子束激发的等离子体中的 LHWs 增长率,我们建立了一个分散关系。讨论了尘粒颗粒对 LHWs 生长率的影响,发现随着尘粒相对密度的增加,LHWs 的生长率也会增加。同时,不稳定模式的增长率随着下杂波频率的增加而降低。此外,还推导出了激发该模式的临界漂移速度,并观察到该速度随着带负电尘粒相对密度的增加而降低。目前的研究结果与现有的实验观测结果一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinetic treatment of lower hybrid waves excitation in a magnetized dusty plasma by electron beam

The theoretical modelling of electrostatic lower hybrid waves (LHWs) is investigated using a kinetic treatment involving an electron beam. This electron beam propagates through a magnetized dusty plasma cylinder that consists of dust grains, electrons, and positively charged potassium ions (K +). The excitation of LHWs via Cerenkov interaction using an analytical model is driven to instability. In order to explain how a population of charged dust particles affects the LHWs growth rate in a plasma that has been stimulated by an electron beam, a dispersion relation has been developed. The dust grain particles impact has been discussed on the growth rate of LHWs, and it was discovered that with the rise in relative density of dust grains, the growth rate of LHWs augments. Also, the growth rate of the unstable mode decreases with the frequency of the lower hybrid wave. Furthermore, the critical drift velocity for excitation of the mode is derived, and it was observed that it decreases as the relative density of negatively charged dust grains augments. The current study's findings align with the existing experimental observations.

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来源期刊
Indian Journal of Physics
Indian Journal of Physics 物理-物理:综合
CiteScore
3.40
自引率
10.00%
发文量
275
审稿时长
3-8 weeks
期刊介绍: Indian Journal of Physics is a monthly research journal in English published by the Indian Association for the Cultivation of Sciences in collaboration with the Indian Physical Society. The journal publishes refereed papers covering current research in Physics in the following category: Astrophysics, Atmospheric and Space physics; Atomic & Molecular Physics; Biophysics; Condensed Matter & Materials Physics; General & Interdisciplinary Physics; Nonlinear dynamics & Complex Systems; Nuclear Physics; Optics and Spectroscopy; Particle Physics; Plasma Physics; Relativity & Cosmology; Statistical Physics.
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