Spectrally and spatially resolved imaging of an anode flare in the initial stage of a vacuum arc discharge

2016 27th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV) Pub Date : 2016-09-01 DOI:10.1109/DEIV.2016.7748726

R. Methling, S. Popov, A. Batrakov, D. Uhrlandt

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引用次数: 2

Abstract

Dynamics of the anode spot generation in the initial stage of vacuum arc with a short gap with gallium-indium liquid-metal electrodes was investigated. Using a spectrometer combined with an intensified CCD camera, spatial and spatio-spectral pattern of plasma emission from the discharge gap were registered with a temporal resolution of 10 ns. Generation of the anode flare begins with the intensive evaporation of anode material in the spark (high-voltage) stage of the discharge. In this period, only lines of neutral atoms are present in the spectrum measured at anode position although higher charge states can be found in the cathode spectra. Intensive ionization of anode flare atoms starts when the discharge changes from the spark to an arc (low-voltage) stage. Lines of single and double charged ions consistently appear in the spectrum. At the subsequent expansion of anode flare, the highest expansion velocity was observed for double charged ion lines, and the lowest one was found for neutral atoms. Expansion velocity was increasing with increasing a voltage and current.

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真空电弧放电初期阳极耀斑的光谱和空间分辨成像

研究了镓铟液态金属电极短间隙真空电弧初期阳极光斑产生的动力学过程。利用增强型CCD相机结合的光谱仪，以10 ns的时间分辨率记录了放电间隙等离子体发射的空间和空间光谱模式。阳极耀斑的产生始于放电火花(高压)阶段阳极材料的密集蒸发。在此期间，在阳极位置测量的光谱中只存在中性原子线，尽管在阴极光谱中可以发现更高的电荷态。当放电从火花阶段转变为电弧(低压)阶段时，阳极耀斑原子开始密集电离。光谱中始终出现单离子和双离子线。在随后的阳极耀斑膨胀中，双荷电离子线的膨胀速度最高，中性原子的膨胀速度最低。膨胀速度随电压和电流的增大而增大。

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2016 27th International Symposium on Discharges and Electrical Insulation in Vacuum (ISDEIV)

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