降低高功率微波介质窗放电的击穿延迟

B. Kupczyk, Chien‐Hao Liu, X. Xiang, N. Behdad, J. Scharer, J. Booske
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引用次数: 5

摘要

只提供摘要形式。高功率微波(HPM)分布式放电限制器的发展主要依赖于最小化高功率微波入射和漫射等离子体产生之间的延迟时间。我们提出了一系列脉冲等离子体实验,在氖、氩、氦和这些气体的混合物中进行,从50-760托。击穿是通过用~25kW, ~ 2kv /cm, 800ns长的脉冲和41Hz脉冲序列照射气体电池来实现的。目前的结果集中在超材料窗膜的初步实验上,表明在控制击穿阈值和减少击穿延迟方面有很大的改进机会。还介绍了在< 100ns的气体混合物中观察到击穿的新结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reduced breakdown delay in high power microwave dielectric window discharges
Summary form only given. Development of high power microwave (HPM) distributed discharge limiters relies critically on minimizing the delay time between HPM incidence and diffuse plasma creation. We present a range of pulsed plasma experiments conducted in neon, argon, helium, and mixtures of these gases, from 50-760 torr. Breakdown is achieved by illuminating a gas cell with a ~25kW, ~2 kV/cm, 800ns-long pulse as well as 41Hz pulse trains. Current results focus on preliminary experiments with metamaterial window coatings that indicate significant improvement opportunities for controlling breakdown thresholds and reducing breakdown delay. New results with gas mixtures in which observed breakdown occurs in <;100ns are also presented.
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