近红外波段CO高灵敏检测的稳定性研究

夏滑; 吴边; 张志荣; 庞涛; 董凤忠; 王煜

doi:10.7498/aps.62.214208

摘要

本文采用中心波长1566.64 nm的DFB激光器, 结合光程长度为56.7 m 的多次反射池, 对不同浓度的CO气体进行了长时间测量, 分析了系统的稳定性和线性度. 通过计算Allan方差, 预测了在积分时间为30 s时, 系统检测极限为0.25 ppmv, 基本上实现了在近红外波段CO的高灵敏检测.

关键词:

CO is an indicative gas of coal spontaneous combustion warning and mine production safety instruction, whose detection process generally requires fiber long-haul transmission. However, currently, the communication fiber windows are mainly in the near-infrared band, so it is very significance to realize highly sensitive CO detection at near-infrared band. Tunable diode laser absorption spectroscopy (TDLAS) technology has advantages of high sensitivity, high resolution, fast response ability and no-contact, which has been widely used in air pollution monitoring, industrial and agricultural production process control, and many other fields. Long-path multi-pass cell can effectively improve the TDLAS detection capabilities, at the same time, the whole system is more compact. In this paper, 1566.64 nm DFB laser and the novel multi-pass cell with an optical path 56.7 m are used to detect different CO concentrations in long-term, while the system stability and linearity are analyzed. In addition, the detection limit is 0.25 ppmv with 30 s integration time by calculating the Allan variance. It means that we have primarily achieved highly sensitive detection of CO in the near-infrared bands.

Keywords:

tunable diode laser absorption spectroscopy (TDLAS) /
multi-pass cell /
CO detection /
allan variance

作者及机构信息

1.
中国科学院安徽光学精密机械研究所, 安徽省光子器件与材料重点实验室, 合肥 230031

基金项目: 国家青年自然科学基金 (批准号: 11204320)资助的课题.

Authors and contacts

1.
Anhui Institute of Optics & Fine Mechanics, Chinese Academy of Sciences, Anhui Provincial Key Laboratory of Photonic Devices and Materials, Hefei 230031, China

Funds: Project supported by the National Natural Science Foundation of China for Youth (Grant No. 11204320).

参考文献

[1]	Wu Y G, Wu J M, Wang J F 2007 China Coal 33 40 (in Chinese) [吴玉国, 邬剑明, 王俊峰 2007 中国煤炭 33 40]
[2]	Curl R F, Tittel F K 2002 Annu. Rep. Prog .Chem. Sect. C 98 219
[3]	Li J Y, Du Z H, Ma Y W, X K X 2013 Chin. Phys. B 22 034203
[4]	Che L, Ding Y J, Peng Z M, Li X H 2012 Chin. Phys. B 21 127803
[5]	Kan R F, Liu W Q, Zhang Y J, Liu J G, Dong F Z, Gao S H, Wang M, Chen J 2005 Acta Phys. Sin. 54 1927 (in Chinese) [阚瑞峰, 刘文清, 张玉钧, 刘建国, 董凤忠, 高山虎, 王敏, 陈军 2005 物理学报 54 1927]
[6]	Herriott D R, Schulte H J 1965 Appl. Opt. 4 883
[7]	Lins B, Zinn P, Engelbrecht R, Schmauss B 2010 Appl. Phys. B 100 367
[8]	Xia H, Dong F Z, Tu G J, Wu B, Zhang Z R, Wang Y 2010 Acta Optica Sinica 30 2596 (in Chinese) [夏滑, 董凤忠, 涂郭结, 吴边, 张志荣, 王煜 2010 光学学 30 2596]
[9]	Tu G J, Wang Y, Dong F Z, Xia H, Pang T, Zhang Z R, Wu B 2012 Chin. Optics Lett. 10 042801
[10]	Werle P, Mucke R, Slemr F 1993 Appl. Phys. B 57 131

施引文献

[1]	Wu Y G, Wu J M, Wang J F 2007 China Coal 33 40 (in Chinese) [吴玉国, 邬剑明, 王俊峰 2007 中国煤炭 33 40]
[2]	Curl R F, Tittel F K 2002 Annu. Rep. Prog .Chem. Sect. C 98 219
[3]	Li J Y, Du Z H, Ma Y W, X K X 2013 Chin. Phys. B 22 034203
[4]	Che L, Ding Y J, Peng Z M, Li X H 2012 Chin. Phys. B 21 127803
[5]	Kan R F, Liu W Q, Zhang Y J, Liu J G, Dong F Z, Gao S H, Wang M, Chen J 2005 Acta Phys. Sin. 54 1927 (in Chinese) [阚瑞峰, 刘文清, 张玉钧, 刘建国, 董凤忠, 高山虎, 王敏, 陈军 2005 物理学报 54 1927]
[6]	Herriott D R, Schulte H J 1965 Appl. Opt. 4 883
[7]	Lins B, Zinn P, Engelbrecht R, Schmauss B 2010 Appl. Phys. B 100 367
[8]	Xia H, Dong F Z, Tu G J, Wu B, Zhang Z R, Wang Y 2010 Acta Optica Sinica 30 2596 (in Chinese) [夏滑, 董凤忠, 涂郭结, 吴边, 张志荣, 王煜 2010 光学学 30 2596]
[9]	Tu G J, Wang Y, Dong F Z, Xia H, Pang T, Zhang Z R, Wu B 2012 Chin. Optics Lett. 10 042801
[10]	Werle P, Mucke R, Slemr F 1993 Appl. Phys. B 57 131

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