等离子体初始化对霍尔推进器方位角不稳定性三维 PIC 仿真的影响

IF 2.6 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Physica Scripta Pub Date : 2024-08-08 DOI:10.1088/1402-4896/ad69e5
Lihuan Xie, Xin Luo, Zhijun Zhou and Yinjian Zhao
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引用次数: 0

摘要

由于对方位角不稳定性及其导致的电子异常传输缺乏了解,限制了霍尔推进器的进一步改进。与理论和实验方法相比,粒子入胞(PIC)数值模拟是一种合适而强大的工具,已被广泛应用于研究方位角不稳定性,并在过去几十年中取得了长足进步。然而,PIC 仿真本身计算成本较高,而霍尔推进器方位角不稳定性具有三维性质。因此,必须进行大规模的三维 PIC 仿真,才能彻底揭示不稳定性的机理。本文从等离子体初始化对霍尔推进器方位角不稳定性三维 PIC 仿真的影响入手进行研究。研究发现,用离子密度和速度拟合函数对稳态模拟结果进行初始化,可以获得更快的收敛速度,计算时间可缩短约 1.5 倍。给出了离子密度、漂移速度和温度的典型拟合函数,并介绍了不同初始化剖面的影响。
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Effect of plasma initialization on 3D PIC simulation of Hall thruster azimuthal instability
The lack of understanding of the azimuthal instability and the resulting electron anomalous transport limits further improvement of Hall thrusters. Compared to theoretical and experimental approaches, the numerical particle-in-cell (PIC) simulation is a suitable and powerful tool, which has been widely applied to investigate the azimuthal instability, and great progress has been made in the past decades. However, PIC simulations are intrinsically computationally expensive, and it is realized that the Hall thruster azimuthal instability has a three dimensional nature. Therefore, massive 3D PIC simulation must be carried out to completely reveal the mechanism of the instability. In this paper, the effect of plasma initialization on 3D PIC simulation of Hall thruster azimuthal instability is studied as a starting point. It is found that by initializing with ion density and velocity fitting functions to the steady-state simulation results, a faster convergence can be obtained and the computational time can be reduced by about 1.5 times. Typical fitting functions of ion density, drifting velocity, and temperature are given, and the influence of different initialization profiles is presented.
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来源期刊
Physica Scripta
Physica Scripta 物理-物理:综合
CiteScore
3.70
自引率
3.40%
发文量
782
审稿时长
4.5 months
期刊介绍: Physica Scripta is an international journal for original research in any branch of experimental and theoretical physics. Articles will be considered in any of the following topics, and interdisciplinary topics involving physics are also welcomed: -Atomic, molecular and optical physics- Plasma physics- Condensed matter physics- Mathematical physics- Astrophysics- High energy physics- Nuclear physics- Nonlinear physics. The journal aims to increase the visibility and accessibility of research to the wider physical sciences community. Articles on topics of broad interest are encouraged and submissions in more specialist fields should endeavour to include reference to the wider context of their research in the introduction.
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