Studies of cavity enhanced absorption spectroscopy for weak absorption gas measurements

International Symposium on High Power Laser Systems and Applications Pub Date : 2017-01-13 DOI:10.1117/12.2256664
Liucheng Li, L. Duo, D. Gong, Yan-hua Ma, Zhiguo Zhang, Yuanhu Wang, Dongjian Zhou, Yuqi Jin
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Abstract

In order to determine the concentrations of trace amount metastable species in chemical lasers, an off-axis cavity enhanced absorption spectrometer for the detection of weak absorption gases has been built with a noise equivalent absorption sensitivity of 1.6x10-8 cm-1. The absorption spectrum of trace amount gaseous ammonia and water vapor was obtained with a spectral resolution of about 78 MHz. A multiple-line absorption spectroscopic method to determine the temperature of gaseous ammonia has been developed by use of multiple lines of ammonia molecule absorption spectrum.
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弱吸收气体测量用腔增强吸收光谱的研究
为了测定化学激光器中微量亚稳物质的浓度,建立了一种检测弱吸收气体的离轴腔增强吸收光谱仪,其噪声等效吸收灵敏度为1.6x10-8 cm-1。得到了微量气态氨和水蒸气的吸收光谱,光谱分辨率约为78 MHz。利用氨分子的多谱线吸收光谱,建立了测定气态氨温度的多谱线吸收光谱方法。
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International Symposium on High Power Laser Systems and Applications
International Symposium on High Power Laser Systems and Applications
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