Instabilities in E × B Discharges Relevant to Electric Propulsion Plasmas

2022 IEEE International Conference on Plasma Science (ICOPS) Pub Date : 2022-05-22 DOI:10.1109/ICOPS45751.2022.9813113

Aayushman Sharma, C. Promislow, J. Little

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Abstract

Investigation of instabilities in E x B plasmas of electric propulsion (EP) devices is crucial to estimate their performances and operation lifetimes [1] , [2] . High-speed imaging and measurement of magnetic-field using B-dot probe arrays have demonstrated the presence of azimuthal spoke modes in Inductive Pulsed Plasma Thrusters (IPPT). The presence of spokes in IPPTs as well as the high spoke mode numbers observed represent as yet unexplored areas of study for these E x B instabilities. The image analysis involved the development of novel techniques to track spokes in a rapidly evolving plasma discharge. Spoke surfaces [3] were generated from high-speed images and the spoke rotation was measured using Radon transform of segments of the spoke surface. The results show the dependence of spoke formation on the background pressure and the discharge voltage. The spokes also show evidence of self-organization into large-scale structures. The image analysis and signal processing methods will be applied to other EP systems of interest, mainly Hall thrusters and Electron Cyclotron Resonance thrusters.

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与电推进等离子体有关的E × B放电的不稳定性

研究电推进(EP)装置中E x B等离子体的不稳定性对于评估其性能和使用寿命至关重要[1]，[2]。利用b点探针阵列对磁场进行高速成像和测量，证明了电感脉冲等离子体推力器(IPPT)中存在方位辐条模式。IPPTs中辐条的存在以及观察到的高辐条模式数代表了这些E x B不稳定性尚未探索的研究领域。图像分析涉及新技术的发展，以跟踪辐条在一个快速发展的等离子体放电。高速图像生成辐条面[3]，对辐条面各段进行Radon变换，测量辐条旋转。结果表明，辐条的形成与背景压力和放电电压有关。辐条也显示出自组织成大规模结构的证据。图像分析和信号处理方法将应用于其他EP系统，主要是霍尔推力器和电子回旋共振推力器。

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2022 IEEE International Conference on Plasma Science (ICOPS)

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