Rayleigh Microwave Scattering for Diagnostics of Atmospheric-Pressure Microplasmas*

2017 IEEE International Conference on Plasma Science (ICOPS) Pub Date : 2017-05-01 DOI:10.1109/PLASMA.2017.8496026
A. Shashurin
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Abstract

Conventional diagnostics cannot be used to measure plasma parameters of atmospheric pressure plasmas if plasma size is small (<1 mm) and density is low (<1013 cm−3). Microwave interferometry fails due to necessity to choose high testing frequency because of small plasma size, which leads to undetectable phase shift. Laser Thomson scattering has limited sensitivity for measuring plasmas with low ionization degree, namely minimal plasma ionization degree is about 10−6 (~1013 cm−3 for atmospheric pressure discharges), and it requires very significant accumulation of the signal (105–106 pulses) which is problematic in case of rapidly evolving non-reproducible plasmas.
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瑞利微波散射在大气压微等离子体诊断中的应用*
如果等离子体尺寸较小(13 cm−3),常规诊断方法不能用于测量大气压等离子体的等离子体参数。微波干涉测量由于等离子体尺寸小,必须选择高测试频率,导致相移无法检测,因而失败。激光汤姆逊散射对低电离度等离子体的测量灵敏度有限,即最小等离子体电离度约为10−6(大气压放电约为1013 cm−3),并且需要非常显著的信号积累(105-106脉冲),这在快速演变的不可复制等离子体的情况下是有问题的。
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2017 IEEE International Conference on Plasma Science (ICOPS)
2017 IEEE International Conference on Plasma Science (ICOPS)
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