Investigation of the Plasma Current Sheath Dynamics in the Run Down Phase of the Hemispherical Plasma Focus Devices Using Two-Dimensional Time Dependent Modeling

IF 0.9 4区物理与天体物理 Q4 PHYSICS, FLUIDS & PLASMAS

Plasma Physics Reports Pub Date : 2023-09-18 DOI:10.1134/S1063780X23600159

M. E. Abdel-kader, M. A. Abd Al-Halim

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Abstract

The Hemisphere Plasma Focus (HSPF) device is a new construction in which the discharge takes place between two concentric hemispherical electrodes. A 2D snow plow model is designed in order to simulate the distributions of the HSPF characteristics between the two electrodes. The model used the momentum and circuit equations to describe the different characteristics in the rundown phase such as; the distributions of the magnetic field, the sheath velocity, the sheath displacement, and the plasma temperature. The results show that the simulated discharge current is in a good agreement with the experimental signal for input charging voltage of 3 kV and helium gas pressure of 0.6 Torr. The peak discharge current is about 42 kA with rise time of about 8.5 μs and the rundown phase is completed at time of about 6.5 μs. The timelines of the current sheath displacement show that the sheath has almost an umbrella shape. As the current sheath is accelerated in θ-direction towards antipodal point, the magnetic field and the plasma temperature are increased and their values are higher as one goes closer to the inner electrode.

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利用二维时间相关模型研究半球形等离子体聚焦器件运行阶段的等离子体电流护套动力学

半球形等离子体聚焦装置是一种新型装置，其放电发生在两个同心的半球形电极之间。设计了一个二维扫雪机模型，模拟了两电极间高温spf特性的分布。该模型使用动量方程和电路方程来描述故障阶段的不同特性，如;磁场分布、鞘层速度、鞘层位移和等离子体温度。结果表明，在输入充电电压为3 kV、氦气压力为0.6 Torr时，模拟的放电电流与实验信号吻合较好。放电电流峰值约为42 kA，上升时间约为8.5 μs，放电时间约为6.5 μs。当前鞘层位移的时间线显示鞘层几乎呈伞形。当电流鞘向对跖点θ-方向加速时，磁场和等离子体温度增大，且越靠近内电极越高。

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来源期刊

Plasma Physics Reports 物理-物理：流体与等离子体

CiteScore

1.90

自引率

36.40%

发文量

104

审稿时长

4-8 weeks

期刊介绍： Plasma Physics Reports is a peer reviewed journal devoted to plasma physics. The journal covers the following topics: high-temperature plasma physics related to the problem of controlled nuclear fusion based on magnetic and inertial confinement; physics of cosmic plasma, including magnetosphere plasma, sun and stellar plasma, etc.; gas discharge plasma and plasma generated by laser and particle beams. The journal also publishes papers on such related topics as plasma electronics, generation of radiation in plasma, and plasma diagnostics. As well as other original communications, the journal publishes topical reviews and conference proceedings.