The Effect of Ion-to-Electron Mass Ratio on the Electron Beam-Plasma Interaction

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED
M. Rafiei, M. Sahrai, M. Hosseinpour, A. Esfandyari-Kalejahi
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引用次数: 0

Abstract

Two-dimensional electromagnetic particle-in-cell simulations are carried out to investigate the effect of ion-to-electron mass ratio on the evolution of warm electron beam-plasma instability. Four cases are considered: A: mi/me = 0 (two-electron stream instability); B: mi/me = 1 (pair plasma); C: mi/me = 100; and D: mi/me = 1000. It is shown that the generation of Langmuir waves in the fundamental mode of electron plasma frequency and the subsequent dynamics of large-amplitude solitons are not affected by the ion species. However, it determines the decay process of solitons and the excitation of electromagnetic waves in the second harmonic. In the first two cases, mi/me = 0 and 1, there is no sign of emission in the second harmonic, while the strongest emission in the second harmonic is found for the case of largest mass ratio, mi/me = 1000. This confirms the two-step wave-wave coupling mechanism for the generation of second harmonic electromagnetic waves, which requires the excitation of ion-acoustic waves in the first step. Moreover, the dispersion diagrams of all excited waves are presented.
离子-电子质量比对电子束-等离子体相互作用的影响
为了研究离子电子质量比对热电子束等离子体不稳定性演化的影响,进行了二维电磁粒子槽内模拟。考虑四种情况:A: mi/me = 0(双电子流不稳定);B: mi/me = 1(对等离子体);C: mi/me = 100;D: mi/me = 1000。结果表明,在电子等离子体频率的基本模式下,朗缪尔波的产生和随后的大振幅孤子动力学不受离子种类的影响。然而,它决定了孤子的衰变过程和电磁波的二次谐波激发。在mi/me = 0和1的前两种情况下,没有二次谐波发射的迹象,而在mi/me = 1000的最大质量比情况下,发现了二次谐波中最强的发射。这证实了二次谐波电磁波产生的两步波波耦合机理,这需要在第一步激发离子声波。并给出了各激发波的色散图。
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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来源期刊
Laser and Particle Beams
Laser and Particle Beams PHYSICS, APPLIED-
CiteScore
1.90
自引率
11.10%
发文量
25
审稿时长
1 months
期刊介绍: Laser and Particle Beams is an international journal which deals with basic physics issues of intense laser and particle beams, and the interaction of these beams with matter. Research on pulse power technology associated with beam generation is also of strong interest. Subjects covered include the physics of high energy densities; non-LTE phenomena; hot dense matter and related atomic, plasma and hydrodynamic physics and astrophysics; intense sources of coherent radiation; high current particle accelerators; beam-wave interaction; and pulsed power technology.
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