Особенности формирования нитевидной структуры микроволнового разряда в потоке аргона

Журнал технической физики Pub Date : 2023-01-01 DOI:10.21883/jtf.2023.01.54068.226-22

С.В. Синцов, А В Водопьянов, А. Н. Степанов, Д.А. Мансфельд, Н. В. Чекмарев, Е.И. Преображенский, А.А. Мурзанев, А.В. Ромашкин

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Abstract

This paper presents the results of an experimental study of the spatial structure of a microwave discharge maintained in an argon flow by gyrotron radiation in a continuous mode with a frequency of 24 GHz at atmospheric pressure. In the structure of the plasma plume, stationary filamentary channels are observed, elongated along the direction of the argon flow, regardless of the orientation of the external electric field of the wave, surrounded by a diffusion halo. Measurements of the electron density, vibrational and rotational temperatures of gas molecules in plasma filaments have been carried out. The role of gas-dynamic mechanisms responsible for the formation of the inhomogeneous static structure of the plasma torch and the maintenance of a substantially nonequilibrium distribution of temperature characteristics in the discharge is discussed.

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氩流微波放电线状结构形成特性

本文介绍了在常压条件下，以24 GHz频率的回旋管辐射维持氩流中连续模式微波放电的空间结构的实验研究结果。在等离子体羽流的结构中，可以观察到固定的丝状通道，它们沿着氩流的方向被拉长，而与波的外电场的方向无关，并被扩散晕包围。测量了等离子体细丝中气体分子的电子密度、振动和旋转温度。讨论了气体动力学机制在等离子炬非均匀静态结构的形成和放电中温度特性基本不平衡分布的维持中所起的作用。

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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Журнал технической физики

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