An investigation of trigatron breakdown by two different mechanisms

A. J. McPhee, S. Macgregor, S. Turnbull
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引用次数: 15

Abstract

An investigation has been carried out into the mechanisms controlling high voltage trigatron operation. This paper describes the experimental work identifying the two different sequences of triggered breakdown. The operating conditions required for each of these breakdown mechanisms to take place are described and discussed. One mechanism (mode 1) is when the trigger pulse is applied to the trigger pin resulting in breakdown across the gas between the pin and earthed electrode. The resulting intense UV radiation is believed to produce free electrons through either photo-ionisation or photo-detachment in the gas which in turn leads to the initiation of an electron avalanche followed by breakdown of the main gap. The second mechanism (mode 2) is when the trigger pulse initiates breakdown between the pin and HV electrode first. After the main gap voltage has collapsed to the trigger pin, this produces a high degree of over-voltage between the pin and the adjacent earthed electrode and consequently, the voltage collapse time is very short. This mode of operation is desirable and can be ensured by careful design of the trigger/earthed electrode configuration. The jitter performance of the trigatron when operating in each of the above modes has been measured at operating voltages of 200 kV for mode 1 and 500 kV for mode 2. The results from this study indicate that the smaller jitter is obtained when the trigatron is operating mode 2, as expected.
两种不同机制对三加速器击穿的研究
对高压三控管的工作机理进行了研究。本文介绍了识别两种不同触发击穿序列的实验工作。描述和讨论了每种击穿机制发生所需的操作条件。一种机制(模式1)是当触发脉冲施加到触发引脚时,导致在引脚和接地电极之间的气体击穿。由此产生的强烈紫外线辐射被认为通过气体中的光电离或光分离产生自由电子,这反过来导致电子雪崩的开始,随后是主间隙的击穿。第二种机制(模式2)是当触发脉冲首先在引脚和高压电极之间启动击穿。在主间隙电压崩溃到触发引脚后,这会在引脚和相邻接地电极之间产生高度过电压,因此,电压崩溃时间非常短。这种操作模式是理想的,可以通过仔细设计触发/接地电极配置来确保。在模式1的工作电压为200千伏,模式2的工作电压为500千伏时,测量了三控管在上述每种模式下工作时的抖动性能。本研究结果表明,当三控管工作模式为2时,得到的抖动较小,符合预期。
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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