A study of DC electrical breakdown in liquid helium through analysis of the empirical breakdown field distributions

arXiv: Instrumentation and Detectors Pub Date : 2020-11-17 DOI:10.1063/5.0037888

N. Phan, W. Wei, B. Beaumont, N. Bouman, S. Clayton, S. Currie, T. Ito, J. Ramsey, G. Seidel

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引用次数: 7

Abstract

We report results from a study on electrical breakdown in liquid helium using near-uniform-field stainless steel electrodes with a stressed area of $\sim$0.725 cm$^2$. The distribution of the breakdown field is obtained for temperatures between 1.7 K and 4.0 K, pressures between the saturated vapor pressure and 626 Torr, and with electrodes of different surface polishes. A data-based approach for determining the electrode-surface-area scaling of the breakdown field is presented. The dependence of the breakdown probability on the field strength as extracted from the breakdown field distribution data is used to show that breakdown is a surface phenomenon closely correlated with Fowler-Nordheim field emission from asperities on the cathode. We show that the results from this analysis provides an explanation for the supposed electrode gap-size effect and also allows for a determination of the breakdown-field distribution for arbitrary shaped electrodes. Most importantly, the analysis method presented in this work can be extended to other noble liquids to explore the dependencies for electrical breakdown in those media.

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通过对经验击穿场分布的分析，对液氦直流电击穿进行了研究

我们报告了使用应力面积为$\sim$0.725 cm$^2$的近均匀场不锈钢电极研究液氦电击穿的结果。得到了温度在1.7 K ~ 4.0 K之间，压力在饱和蒸汽压~ 626 Torr之间，电极表面抛光不同时击穿场的分布。提出了一种基于数据的方法来确定击穿场的电极表面积尺度。从击穿场分布数据中提取击穿概率与场强的依赖关系，表明击穿是一种表面现象，与阴极上凹凸不平的Fowler-Nordheim场发射密切相关。我们表明，从这个分析的结果提供了一个解释假设的电极间隙大小效应，也允许确定击穿场分布为任意形状的电极。最重要的是，本工作中提出的分析方法可以扩展到其他贵重液体，以探索这些介质中电击穿的依赖关系。

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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arXiv: Instrumentation and Detectors

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