Analysis of the Causes of the Inverse Population of Atomic Argon Levels in Condensing Supersonic Flows of Mixtures

IF 1 4区 工程技术 Q4 MECHANICS
A. E. Zarvin, V. Zh. Madirbaev, K. A. Dubrovin, A. S. Yaskin
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Abstract

The features of argon radiation mixed with molecular and atomic additives in condensing supersonic jets are analyzed. Mixtures of argon (95%) with methane (5%) and argon (95%) with monosilane (5%) are used. The mixture’s particles are activated by a well-focused electron beam. The dependence of the radiation intensity of individual argon lines on the gas-dynamic parameters in the jet is studied. In a certain pressure range, different various compositions of mixtures, not only anomalously intense emission was recorded on individual spectral lines of argon (ArI) in mixtures with methane and monosilane, but also the role of clusters of a certain size and composition was revealed. At the same time, a similar effect is not detected in the spectrum of argon (ArII) ions. It is established that the cause of the anomaly is a highly efficient molecular cluster mechanism of the selective excitation of the individual levels of argon atoms, which is absent in noncondensing jets and weakens at the stage of the formation of large clusters. The main channels of energy transmission are reviewed and discussed. Based on the data obtained, an empirical model of the excitation-emission process is proposed.

Abstract Image

Abstract Image

混合物冷凝超音速流动中原子氩含量反向分布的原因分析
摘要 分析了氩辐射与分子和原子添加剂混合在冷凝超音速射流中的特征。研究使用了氩气(95%)与甲烷(5%)和氩气(95%)与单硅烷(5%)的混合物。混合物的粒子由聚焦良好的电子束激活。研究了单个氩气线的辐射强度与射流中气体动力参数的关系。在一定的压力范围内,在不同成分的混合物中,不仅记录到与甲烷和单硅烷的混合物中氩(ArI)的个别谱线的异常强烈辐射,而且还揭示了一定大小和成分的簇的作用。同时,在氩(ArII)离子的光谱中没有检测到类似的效应。研究证实,造成这种异常现象的原因是氩原子单个水平选择性激发的高效分子簇机制,这种机制在非冷凝射流中是不存在的,并且在形成大型簇的阶段会减弱。本文回顾并讨论了能量传输的主要渠道。根据获得的数据,提出了激发-发射过程的经验模型。
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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来源期刊
Fluid Dynamics
Fluid Dynamics MECHANICS-PHYSICS, FLUIDS & PLASMAS
CiteScore
1.30
自引率
22.20%
发文量
61
审稿时长
6-12 weeks
期刊介绍: Fluid Dynamics is an international peer reviewed journal that publishes theoretical, computational, and experimental research on aeromechanics, hydrodynamics, plasma dynamics, underground hydrodynamics, and biomechanics of continuous media. Special attention is given to new trends developing at the leading edge of science, such as theory and application of multi-phase flows, chemically reactive flows, liquid and gas flows in electromagnetic fields, new hydrodynamical methods of increasing oil output, new approaches to the description of turbulent flows, etc.
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