On the role of nonmetal inclusions at the cathode surface in the initiation and self-sustaining of a vacuum discharge

Proceedings ISDEIV. 19th International Symposium on Discharges and Electrical Insulation in Vacuum (Cat. No.00CH37041) Pub Date : 2000-09-18 DOI:10.1109/DEIV.2000.877254

S. Barengolts, Yu.A. Barengolts

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Abstract

Emission processes are treated for the case where dielectric and semiconductor microinclusions are present on the surface of a metal cathode. It has been shown that the emission current-voltage characteristic plotted in the Fowler-Nordheim coordinates is close to a straight line corresponding to a high field enhancement factor. A stationary problem on the heating of a nonmetal microprotrusion by the field emission current has been solved. Calculations have shown that for explosive emission processes to be initiated in this case, lower critical currents and lower Joule energy spatial densities are required then in the case of metal microprotrusions on a cathode. This is the reason why the initiation of a vacuum discharge and its operation at the early stage occur at those sites where nonmetal inclusions are present. For a vacuum arc discharge, the required electric field strength is achieved through the charging of the surface of a nonmetal inclusion by the ion current from the arc plasma.

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阴极表面非金属夹杂物在真空放电的产生和自我维持中的作用

针对存在于金属阴极表面上的介电和半导体微内含物的情况，对发射过程进行处理。结果表明，在Fowler-Nordheim坐标系中绘制的发射电流-电压特性接近于一条直线，对应于高场增强因子。解决了场发射电流加热非金属微突起的稳态问题。计算表明，要在这种情况下启动爆炸发射过程，则需要较低的临界电流和较低的焦耳能量空间密度，然后在阴极上的金属微突起的情况下。这就是为什么真空放电的开始和早期操作发生在非金属夹杂物存在的地方的原因。对于真空电弧放电，所需的电场强度是通过电弧等离子体的离子流对非金属夹杂物表面的充电来实现的。

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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Proceedings ISDEIV. 19th International Symposium on Discharges and Electrical Insulation in Vacuum (Cat. No.00CH37041)

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