Properties of a continuous optical discharge sustained by short-wave infrared laser radiation in high pressure argon

IF 3.1 3区 物理与天体物理 Q2 PHYSICS, APPLIED
V N Androsenko, M A Kotov, N G Solovyov, A N Shemyakin, M Yu Yakimov
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Abstract

This paper is devoted to the experimental study of the characteristics of a continuous optical discharge (COD) sustained by high power continuous wave laser radiation at a wavelength λ = 1.08 μm in high pressure argon. New data on the COD threshold laser power dependence of argon pressure in the range 20–50 bar is obtained. The COD threshold laser power is shown to be in good agreement with the data obtained by other authors and theoretical evaluations provided the contribution of plasma energy loss due to thermal radiation is taken into account properly. The maximum plasma temperature was estimated to be 20–21 kk or higher, favorable to obtain high UV spectral radiance. A study of the convective plume oscillations around COD in argon has been carried out. It is found that in the pressure range 25–35 bars the growth of the laser radiation power leads to a decrease in convection oscillation frequency from 33 to 29 Hz, while the radius of the convective plume grows accordingly. The oscillation frequency ν and characteristic radius of the convective plume r0 were found to obey the similarity relation ν=0.5g/2r0 previously established in experiments with COD in xenon. These results are promising for using COD in argon as a high brightness broadband UV radiation source.
高压氩气中短波红外激光辐射持续光放电的特性
本文致力于对高压氩气中波长为 λ = 1.08 μm 的高功率连续波激光辐射所维持的连续光放电(COD)的特性进行实验研究。我们获得了 COD 临界激光功率与 20-50 巴氩气压力关系的新数据。只要适当考虑热辐射造成的等离子体能量损失,COD阈值激光功率与其他作者获得的数据和理论评估结果就能很好地吻合。最高等离子体温度估计为 20-21 kk 或更高,有利于获得高紫外光谱辐射。对氩气中 COD 周围的对流羽流振荡进行了研究。研究发现,在 25-35 bars 的压力范围内,激光辐射功率的增长导致对流振荡频率从 33 Hz 下降到 29 Hz,同时对流羽流的半径也相应增长。研究发现,对流羽流的振荡频率 ν 和特征半径 r0 与之前在氙气中的 COD 实验中建立的相似关系 ν=0.5g/2r0 相符。这些结果有望将氩气中的 COD 用作高亮度宽带紫外线辐射源。
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来源期刊
Journal of Physics D: Applied Physics
Journal of Physics D: Applied Physics 物理-物理:应用
CiteScore
6.80
自引率
8.80%
发文量
835
审稿时长
2.1 months
期刊介绍: This journal is concerned with all aspects of applied physics research, from biophysics, magnetism, plasmas and semiconductors to the structure and properties of matter.
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