Analysis of the Minimum Duration of the Runaway Electron Flow in an Air Electrode Gap

2020 7th International Congress on Energy Fluxes and Radiation Effects (EFRE) Pub Date : 2020-09-14 DOI:10.1109/EFRE47760.2020.9242155

N. Zubarev, A. Sadykova, S. Shunailov, A. Kozyrev, G. Mesyats, K. Sharypov, M. Ulmaskulov, N. Semeniuk, V. Shpak, M. Yalandin, O. Zubareva

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Abstract

Properties of the runaway electron flow (REF) generated in an air-filled high-voltage interelectrode gap with a drastically inhomogeneous electric field distribution are presented. We have shown that REF initiated near the tip of a conical cathode involves high-energy electron fraction with ultrashort length of about 10 ps. Analytical and numerical considerations show that the REF generation and cessation is determined by a combination of ionization processes in the gas in the vicinity of the cathode, resulting in multiplication of free electrons and expansion of the cathode plasma layer, and dynamic processes that switch on/off a threshold electric field at the anode side plasma border which is sufficiently high for electrons to become runaway. The characteristic time of REF generation and termination can be estimated from the rate of ionization at a near-threshold field as ~2 ps. This elementary time determines the pulse length for the runaway electron current that was calculated to be ~6 ps, which is close to its experimental value.

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气电极间隙中失控电子流的最小持续时间分析

研究了电场分布极不均匀的高压气隙中失控电子流的性质。我们已经证明，在锥形阴极尖端附近引发的REF涉及约10 ps的超短长度的高能电子片段。分析和数值考虑表明，REF的产生和停止是由阴极附近气体中电离过程的组合决定的，导致自由电子的增殖和阴极等离子体层的膨胀。以及在阳极侧等离子体边界开启/关闭阈值电场的动态过程，该阈值电场足以使电子失控。根据近阈值场的电离速率，可以估计REF产生和终止的特征时间为~ 2ps，这一基本时间决定了失控电子电流的脉冲长度，计算结果为~ 6ps，与实验值接近。

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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2020 7th International Congress on Energy Fluxes and Radiation Effects (EFRE)

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