Empirical analysis of a hollow cathode’s intensity distribution in the vacuum ultraviolet range

Journal of Vacuum Science & Technology A Pub Date : 2024-06-13 DOI:10.1116/6.0003633
S. C. Olsen, D. D. Allred, R. R. Vanfleet
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Abstract

Hollow cathodes are a common type of vacuum ultraviolet (VUV) light source with a wide range of design and application. We determined the VUV (58.4 nm) intensity distribution of a hollow cathode as a function of current and pressure. Our model describes the intensity distribution of a McPherson 629-like hollow cathode helium plasma within the range of 0.50–1.00 A and 0.50–1.00 Torr as a ring with a center peak. We found that for all pressures and currents considered, the ring emits more VUV light than the center peak. We also found that the center peak has a minimum VUV light emission near 0.9 Torr.
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真空紫外线范围内空心阴极强度分布的经验分析
空心阴极是一种常见的真空紫外(VUV)光源,具有广泛的设计和应用范围。我们测定了空心阴极的紫外线(58.4 纳米)强度分布与电流和压力的函数关系。我们的模型将类似麦克弗森 629 的空心阴极氦等离子体在 0.50-1.00 A 和 0.50-1.00 托范围内的强度分布描述为一个具有中心峰值的环。我们发现,在考虑的所有压力和电流条件下,环形峰比中心峰发出更多的紫外光。我们还发现,中心峰在 0.9 托附近的紫外可见光发射达到最小值。
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Journal of Vacuum Science & Technology A
Journal of Vacuum Science & Technology A
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