Influence of the gas type on the electrical strength of the accelerating pro-gap of the fore-vacuum plasma source of electrons

V. Burdovitsin, I. Bakeev, K. Karpov, L. Ngon A. Kiki, E. Oks
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Abstract

The electrical strength of the accelerating gap of a fore-vacuum plasma electron source is compared for different working gases: argon, nitrogen, oxygen, and helium. The dependences of the limiting electron emission current, above which breakdown occurs, on the voltage across the accelerating gap are presented. It has been established that the limiting emission currents are determined by the thickness of the emission electrode, the diameter of the holes in it, as well as the gas type and pressure. It has been established that for all gases the limiting emission currents decrease with increasing pressure. The limiting pressures, when exceeded, breakdown occurs, decrease in the series: helium, oxygen, nitrogen, argon. For different experimental conditions, the dependences of the limiting emission currents on the accelerating voltage can be both monotonically growing and containing an extremum.
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气体类型对前真空等离子体源加速前隙电强度的影响
在不同的工作气体:氩气、氮气、氧气和氦气下,比较了前真空等离子体电子源加速间隙的电强度。给出了在加速间隙上的电压对极限电子发射电流(击穿发生时)的依赖性。极限发射电流由发射电极的厚度、孔的直径、气体类型和压力决定。已经确定,对于所有气体,极限发射电流随压力的增加而减小。当超过极限压力时,发生击穿,在系列中:氦、氧、氮、氩。在不同的实验条件下,极限发射电流对加速电压的依赖关系可能是单调增长的,也可能包含一个极值。
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