Runaway electrons preionized diffuse discharges at high pressure

2009 IEEE Pulsed Power Conference Pub Date : 2010-09-17 DOI:10.1117/12.880923
V. Tarasenko, E. H. Baksht, A. Burachenko, I. Kostyrya, M. Lomaev, D. Rybka
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引用次数: 3

Abstract

The paper presents the results of experimental research on nanosecond high-pressure diffuse discharges in an inhomogeneous electric field with a time resolution of ∼100 ps. It is shown that decreasing the voltage pulse duration enhances the feasibility of diffuse discharge with no additional ionization. In particular with a narrow interelectrode gap, a diffuse discharge in atmospheric pressure air with preionization by runaway electrons or shortly a runaway-electron-preionized (REP) diffuse discharge (DD) was realized. It is found that most of the energy is deposited to the REP DD plasma once the voltage across the gap reaches its maximum.
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失控的电子在高压下预电离扩散放电
本文介绍了在时间分辨率为~ 100 ps的非均匀电场中进行纳秒级高压漫射放电的实验研究结果。结果表明,减小电压脉冲持续时间可以提高无额外电离的漫射放电的可行性。特别是在电极间隙较窄的情况下,在常压空气中实现了失控电子预电离或失控电子预电离(REP)扩散放电(DD)。研究发现,一旦间隙上的电压达到最大值,大部分能量被沉积到REP DD等离子体中。
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2009 IEEE Pulsed Power Conference
2009 IEEE Pulsed Power Conference
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