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双光程光声光谱甲烷传感器
引用本文:杨艳芳,裴凯龙,尹旭坤,武红鹏,李尚志,崔茹悦,马维光,张雷,尹王保,董磊,贾锁堂.双光程光声光谱甲烷传感器[J].光谱学与光谱分析,2018,38(2):616-620.
作者姓名:杨艳芳  裴凯龙  尹旭坤  武红鹏  李尚志  崔茹悦  马维光  张雷  尹王保  董磊  贾锁堂
作者单位:1. 量子光学与光量子器件国家重点实验室,山西大学激光光谱研究所,山西 太原 030006
2. 极端光学协同创新中心,山西 太原 030006
基金项目:国家优秀青年基金项目(61622503),国家自然科学基金项目(61575113)资助
摘    要:利用甲烷(CH4)气体分子在1.6 μm的吸收特性,使用中心波数为6 046.96 cm-1的蝶形分布反馈式(DFB)激光器和自制的大内径光声池,设计了一款紧凑高灵敏的CH4气体传感器。为了进一步增强输出光声信号强度,一个具有高反射率的平面镜放置在光声池后,使透射光束被反射后,二次通过光声池,增强了光与被测气体的作用距离,使光声信号提高了1.9倍。传感器各项参数,包括调制频率、调制深度及气体流速被优化。在标准大气压和1 s的积分时间下,该传感器最终获得的探测灵敏度为0.21 ppm,1σ归一化等效噪声系数(NNEA)为2.1×10-8 cm-1·W·Hz-1/2。该甲烷传感器使用性价比高的DFB近红外激光二极管作为激发光源,装置简单,成本低廉可以满足大气环境检测、矿井瓦斯监测、工业过程控制及无创伤医疗诊断等领域的需求。

关 键 词:甲烷检测  光声光谱  分布反馈式激光器  气体传感器  波长调制  
收稿时间:2017-03-11

Photoacoustic Spectroscopy Based Methane Sensor Using a Double-Pass Photoacoustic Cell
YANG Yan-fang,PEI Kai-long,YIN Xu-kun,WU Hong-peng,LI Shang-zhi,CUI Ru-yue,MA Wei-guang,ZHANG Lei,YIN Wang-bao,DONG Lei,JIA Suo-tang.Photoacoustic Spectroscopy Based Methane Sensor Using a Double-Pass Photoacoustic Cell[J].Spectroscopy and Spectral Analysis,2018,38(2):616-620.
Authors:YANG Yan-fang  PEI Kai-long  YIN Xu-kun  WU Hong-peng  LI Shang-zhi  CUI Ru-yue  MA Wei-guang  ZHANG Lei  YIN Wang-bao  DONG Lei  JIA Suo-tang
Institution:1. State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser Spectroscopy, Shanxi University, Taiyuan 030006, China 2. Collaborative Innovation Center of Extreme Optics, Taiyuan 030006, China
Abstract:A laser based Photoacoustic sensor system was demonstrated and developed for methane (CH4) detection using a custom double-pass photoacoustic cell with a large inner diameter. The sensor used a butterfly-package distributed feedback (DFB) laser with its wavelength targeting the CH4 absorption line at 6 046.96 cm-1. A high-reflection plane mirror was positioned behind the photoacoustic cell to enhance the absorption optical path and improve the detection sensitivity. The sensor parameters including the modulation frequency, modulation depth of the laser and gas flow were optimized. Under theatmospheric pressure, the novel CH4 sensor showed a detection sensitivity of 0.21 ppm with a 1 s averaging time, which corresponded to a 1σ normalized noise equivalent absorption (NNEA) of 2.1×10-8 cm-1·W·Hz-1/2. The excellent performance of this CH4 sensor promises broad applicability to industry, mine, medical and environmental monitoring, etc.
Keywords:Methane detection  Photoacoustic spectrascopy  Distributed feedback laser  Gas sensor  Wavelength modulation  
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