Generation of supershort avalanche electron beams in nanosecond discharges in high-pressure gases

V. Tarasenko, E. H. Baksht, A. G. Burachenko, I. Kostyrya, M. Lomaev, D. Rybka
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Abstract

In this paper, the recent measurement results on duration and amplitude of a beam, generated at a nanosecond discharge in different gases have been summarized. Voltage pulses ~25, ~150 and ~250 kV in amplitude were applied to the gas gap with inhomogeneous electric field. Discharge formation and super short avalanche electrons beam (SAEB) generation in sulfur hexafluoride and xenon at pressure of 0.01-2.5 atm and helium of 10-4-12 atm have been investigated. The beam of runaway electrons behind 45 mum Al-Be foil was observed at sulfur hexafluoride and xenon pressure up to 2 atm. It was found that the SAEB duration (FWHM) increased with sulfur hexafluoride pressure in the range 1-2.5 atm. Spectra of a diffuse and contracted discharges in sulfur hexafluoride are presented. Waveforms of the electrons beams generated in helium at pressure 10-4-12 atm were registered. Therewith the electrons beam in helium at p = 12 atm was obtained for the first time. Complex dependence of the electrons beam current amplitude from helium pressure was obtained. Three peaks of the current were observed at pressure 0.01, ~0.07 and ~3 atm. It is presented that at SAEB current recording through a region with a small diameter the pulse duration behind a foil over the gas diode axis is no more than 90 ps. For recording, the pulse shape it is necessary to use a small-sized coaxial collector, loaded to a high-frequency cable, and the same collector is used for taking the discharge density distribution over the foil surface in order to determine the SAEB amplitude. The electron distribution over the foil section should be compared with a per pulse distribution. In these experiments, we have compared the distributions obtained per pulse on a RF-3 and luminophore films, placed behind a foil. Besides that, intensity distribution of X-ray radiation at the gas diode output was recorded by using a multi-channel detection device based on microstrip arsenide-gallium detectors of ionizing radiation. An analysis of those data shows that at the beam current duration (FWHM) of ~90 ps the beam current amplitude behind the 10-mum thickness Al-foil at atmospheric pressure of air is ~50 A.
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高压气体纳秒放电中超短雪崩电子束的产生
本文综述了近年来在不同气体中对纳秒放电产生的光束的持续时间和振幅的测量结果。将振幅为~25、~150和~250 kV的电压脉冲施加到具有非均匀电场的气隙中。研究了六氟化硫和氙在0.01 ~ 2.5大气压下以及氦在10-4-12大气压下的放电形成和超短雪崩电子束的产生。在六氟化硫和高达2atm的氙气压力下,观察到45 μ m Al-Be箔后的逃逸电子束。结果表明,在1 ~ 2.5 atm范围内,随着六氟化硫压力的增大,SAEB持续时间(FWHM)增加。给出了六氟化硫中扩散放电和收缩放电的光谱。记录了在大气压10-4-12下氦中产生的电子束的波形。从而首次得到了p = 12atm时氦中的电子束。得到了电子束电流振幅与氦压力的复相关关系。在0.01、~0.07和~ 3atm压力下,出现了三个电流峰值。本文提出,在SAEB电流通过一个直径较小的区域进行记录时,在气体二极管轴上的箔后面的脉冲持续时间不超过90 ps。为了记录脉冲形状,需要使用一个小尺寸的同轴集电极,装载到高频电缆上,并且使用相同的集电极来取箔表面上的放电密度分布,以确定SAEB振幅。在箔片上的电子分布应与每脉冲的分布进行比较。在这些实验中,我们比较了RF-3和放置在箔后面的发光团薄膜上每脉冲获得的分布。利用基于微带砷镓电离辐射探测器的多通道探测装置,记录了气体二极管输出端的x射线辐射强度分布。分析结果表明,当波束电流持续时间(FWHM)为~90 ps时,在大气压力下,10 μ m厚度铝箔后的波束电流幅值为~50 A。
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