Detection of CO based on optical feedback cavity enhanced absorption spectroscopy

Yunzheng Wang, S. Guan, Z. Tan, Huilin Cao, Shirong Chen, Zeya Yang
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Abstract

Carbon monoxide (CO) is an important object for atmospheric quality and medical diagnosis, and its trace concentration detection technology has been of great attention. For this purpose, various new detection methods have emerged, such as cavity ring down absorption spectroscopy and cavity enhanced absorption spectroscopy. In this paper, the demand for CO ppm-level trace concentration detection is taken as the traction, and an optical feedback cavity enhanced absorption spectroscopy system with an equivalent noise absorption sensitivity of 7.4×10-10cm-1Hz-1/2 is established to carry out the experiment of near-infrared detection of CO gas concentration. Based on the measurement data of the OF-CEAS system, the minimum measurable CO concentration of the system was inferred to be 1.98 ppm. This system can be developed as a portable respiratory gas diagnostic device and an atmospheric trace gas detection device such as NH3 and CO.
基于光反馈腔增强吸收光谱的CO检测
一氧化碳(CO)是大气质量和医学诊断的重要对象,其痕量浓度检测技术一直备受关注。为此,出现了各种新的检测方法,如腔衰荡吸收光谱和腔增强吸收光谱。本文以CO ppm级痕量浓度检测的需求为牵引,建立了等效噪声吸收灵敏度为7.4×10-10cm-1Hz-1/2的光反馈腔增强吸收光谱系统,开展CO气体浓度近红外检测实验。根据of - ceas系统的测量数据,推断该系统的最小可测CO浓度为1.98 ppm。该系统可开发为便携式呼吸气体诊断装置和大气微量气体检测装置,如NH3和CO。
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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