Effects of anode and cathode surface treatments on vacuum breakdown between metal electrodes with 50-ns high voltage pulses

2017 IEEE 21st International Conference on Pulsed Power (PPC) Pub Date : 2017-06-18 DOI:10.1109/PPC.2017.8291278

R. J. Alleni, D. Hinshelwood, S. Jackson, P. Ottinger, H. M. Rittersdorf, J. Schumer

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Abstract

Well diagnosed measurements of electrical breakdown between metal electrodes in vacuum have been made using a 1-MV, 50-ns pulse-generator-based test stand [1]. Results with bare, as-machined electrodes showed that cathode surface finish and material have little to no effect on the breakdown electric field. However, changing the AK gap did affect the breakdown field level, suggesting that the anode is involved in cathode turn on. Further tests showed that applying a carbon coating to the anode can dramatically decrease the breakdown field [2]. Here, we report on other anode and cathode surface treatments and how they can enhance or suppress breakdown. Polishing of the anode can prevent breakdown at certain field strengths and decrease the breakdown current at higher fields. Marring a small spot on a polished anode is shown to initiate cathode turn on at a location opposite that spot. The effects of other surface treatments such as metallic and dielectric coatings on anode and cathode surfaces will also be discussed.

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阳极和阴极表面处理对金属电极间真空击穿的影响

利用1 mv, 50 ns脉冲发生器为基础的试验台对真空中金属电极之间的电击穿进行了诊断测量[1]。结果表明，阴极表面光洁度和材料对击穿电场几乎没有影响。然而，改变AK间隙确实会影响击穿场水平，这表明阳极参与了阴极导通。进一步的测试表明，在阳极上涂上碳涂层可以显著降低击穿场[2]。在这里，我们报告了其他阳极和阴极表面处理以及它们如何增强或抑制击穿。对阳极进行抛光处理，在一定场强下可防止击穿，在较高场强下可降低击穿电流。在抛光的阳极上形成一个小点，表明在该点对面的位置启动阴极导通。其他表面处理如金属和介质涂层在阳极和阴极表面的影响也将被讨论。

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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2017 IEEE 21st International Conference on Pulsed Power (PPC)

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