在电容耦合射频放电中产生高密度氢等离子体，空心阴极由磁铁包围

Journal of Vacuum Science & Technology A Pub Date : 2024-04-18 DOI:10.1116/6.0003448

Y. Ohtsu, Takeshi Uchida, Ryohei Kuno, J. Schulze

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摘要

通过使用空心阴极的射频磁化电容耦合放电产生了等离子体密度高于 1010 cm-3 的高密度氢等离子体，空心阴极是指供电电极内的一个圆柱形孔，周围有八个圆柱形钕磁铁。通过计算磁场来讨论电子磁化，即电子的霍尔参数和拉莫尔半径。研究发现，在氢气压力为 3 Pa 的情况下，由磁体环绕的空心沟槽中心的朗缪尔探针测得的离子饱和电流估算出的等离子体密度最大值约为无磁体时的 1.7 倍。磁体的加入导致沟槽内高密度等离子体区域的扩大。在有磁体的情况下，等离子体密度径向分布的均匀性要好于没有磁体的情况。

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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Production of a high-density hydrogen plasma in a capacitively coupled RF discharge with a hollow cathode enclosed by magnets

A high-density hydrogen plasma with a plasma density higher than 1010 cm−3 is produced by a radio-frequency magnetized capacitively coupled discharge using a hollow cathode, i.e., a cylindrical hole inside the powered electrode surrounded by eight cylindrical neodymium magnets. The magnetic field is calculated to discuss the electron magnetization, i.e., the Hall parameter and Larmor radius of electrons. It is found that for 3 Pa of hydrogen gas pressure the maximum of plasma density estimated from the ion saturation current measured by a Langmuir probe at the center of the hollow trench, which is surrounded by the magnets, is approximately 1.7 times higher than that without the magnets. The addition of magnets results in an expansion of the high-density plasma region inside the trench. The uniformity of the radial profile of the plasma density is better in the presence of the magnets than that without the magnets.

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Journal of Vacuum Science & Technology A

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