利用紫外光波段CN光谱的相对强度获得旋转温度的研究

Mengjun Sun, Lu Bai, Dan-meng Zhang, Huigang Shi
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引用次数: 0

摘要

羽流和激波的非平衡紫外辐射特性与振动-旋转温度等飞行参数密切相关,其中温度是计算非平衡辐射最重要的热力学量。CN是飞机再入大气层和碳基复合材料烧蚀的主要产物,具有非常高的发射效率,是高温气体测温的最佳分子之一。本文采用双温模型和逐行法计算了CN的紫外光谱辐亮度,并分析了紫外波段的光谱结构。讨论了在热力学非平衡条件下,振动温度和旋转温度对紫外辐射光谱强度和光谱形状的影响。根据CN紫外光带v=0峰带尾与振动温度和旋转温度的关系,提出了利用CN光谱相对强度斜率反演旋转温度的方法
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on obtaining rotation temperature by using the relative intensity of the CN spectrum in the ultraviolet band
The non-equilibrium ultraviolet radiation characteristics of plume and shock are closely related to flight parameters such as vibration-rotation temperature, where temperature is the most important thermodynamic quantity for calculating non-equilibrium radiation. CN is the main product of aircraft reentry into the atmosphere and the ablation of carbon-based composite materials, and has very high emission efficiency, making it one of the best molecules for high-temperature gas temperature measurement. In this paper, the two-temperature model and the line-by-line method are used to calculate the CN ultraviolet spectral radiance, and the spectral structure of the violet band is analyzed. The effects of vibration temperature and rotation temperature on the spectral intensity and spectral shape of ultraviolet radiation under thermodynamic non-equilibrium conditions are discussed. According to the relationship between the band tail of CN violet band v=0 peak and the vibration temperature and rotation temperature, a method to invert the rotation temperature using the the slope of CN spectral relative intensity
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