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Oxygen assisted iodine atoms production in an RF discharge

SPIE LASE Pub Date : 2016-04-22 DOI:10.1117/12.2218350
P. A. Mikheyev, A. Demyanov, N. I. Ufimtsev, I. Kochetov, V. Azyazov, A. Napartovich, M. Heaven
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Abstract

Experiments and modeling of CH3I dissociation in the plasma generated by a 40 MHz RF discharge were performed. A discharge chamber of an original design, consisting of quartz tubes between two planar electrodes, permitted the production of iodine atoms with number densities up to 2×1016 cm-3. In this discharge chamber, contamination of the walls of the tubes did not hinder discharge stability, providing a good iodine production rate. Addition of oxygen into Ar:CH3I mixture resulted in a substantial increase in iodine extraction efficiency. When the discharge power reached 200 W, complete CH3I dissociation in a Ar:CH3I:O2 mixture was observed. The fraction of discharge power spent on iodine atom production at a 0.17 mmol/s CH3I flow rate was 16%.
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氧在射频放电中辅助碘原子的产生
研究了40 MHz射频放电产生的等离子体中CH3I解离的实验和模型。一个原始设计的放电室,由两个平面电极之间的石英管组成,允许生产密度高达2×1016 cm-3的碘原子。在这个放电室中,管壁的污染不影响放电稳定性,提供了良好的碘产量。在Ar:CH3I混合物中加入氧气可显著提高碘的萃取效率。当放电功率达到200 W时,观察到CH3I在Ar:CH3I:O2混合物中完全解离。在0.17 mmol/s CH3I流速下,用于碘原子生成的放电功率占总放电功率的16%。
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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SPIE LASE
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