Exploring Cesium and H-Beam Properties Internal to the Lansce H-Ion Source Using Resonant Absorption Spectroscopy and Cavity Ring Down Spectroscopy

2022 IEEE International Conference on Plasma Science (ICOPS) Pub Date : 2022-05-22 DOI:10.1109/ICOPS45751.2022.9813046

D. Kleinjan, G. Rouelau, L. Neukirch

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Abstract

The Los Alamos Neutron Science Center (LANSCE) H- ion source has provided stable output for decades of LANL mission needs, but its maximum beam output has remained the same at ~15 mA. A roadblock to improving beam output has been a lack of thorough understanding of the internal mechanisms of LANSCE H- ion source. The LANSCE H- Ion Source Laser Diagnostic Stand (HLDS) was recently built and commissioned to explore these internal mechanisms using laser absorption techniques, in particular to measure and diagnose dynamic H- and Cesium (Cs) properties. The Cs density probe is based on resonant absorption of a continuous wave diode laser tuned though the D2 line of cesium (~852 nm). The H- measurement relies on a much weaker photo-ionization process, and therefore relies on a cavity ring down spectroscopy measurement. The design, construction and commissioning of HLDS will be reviewed, the measurements and capabilities using the Cs laser diagnostic will be presented, and the status of the H- laser diagnostic will be discussed.

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用共振吸收光谱和腔衰荡光谱研究兰斯h离子源内部铯和h束的性质

几十年来，洛斯阿拉莫斯中子科学中心(LANSCE)的氢离子源为LANL任务提供了稳定的输出，但其最大光束输出一直保持在~15 mA。对LANSCE氢离子源的内部机制缺乏深入的了解是提高光束输出的一个障碍。LANSCE氢离子源激光诊断台(hds)最近建成并委托使用激光吸收技术探索这些内部机制，特别是测量和诊断动态氢和铯(Cs)性质。铯密度探头是基于连续波二极管激光通过铯(~852 nm) D2线调谐的共振吸收。氢的测量依赖于一个弱得多的光电离过程，因此依赖于腔衰荡光谱测量。本文将回顾hds的设计、建造和调试，介绍Cs激光诊断的测量和能力，并讨论H激光诊断的现状。

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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2022 IEEE International Conference on Plasma Science (ICOPS)

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