Simultaneous detection of CH4 and CO2 through dual modulation off-axis integrated cavity output spectroscopy

doi:10.1088/1674-1056/acdac1

Abstract This study established a novel method for the simultaneous detection of two-component gases. Radio frequency (RF) white noise disturbance laser current and wavelength modulation were simultaneously used to improve the off-axis integrated cavity output spectroscopy technique, and a high-precision dual modulation OA-ICOS (RF-WM-OA-ICOS) system was established. The two laser beams were coupled into one laser beam that was applied incident to the cavity of RF-WM-OA-ICOS system. The second harmonic signals of CH$_{4}$ and CO$_{2}$ gas simultaneously appeared in the rising or falling edge of a triangular wave. This method was used to measure CH$_{4}$ and CO$_{2}$ with different concentrations. The results indicated that the proposed system has high stability and can accurately and simultaneously measure the concentrations of CH$_{4}$ and CO$_{2}$, with an optimal integration time of 220 s. The minimum detection limit was 10 ppb for CH$_{4}$ and 1.5 ppm for CO$_{2}$. The corresponding noise equivalent absorption sensitivity values were calculated as $2.67 \times 10^{-13}$ cm$^{-1}\cdot$Hz$^{-1/2}$ and $5.18 \times 10^{-11}$ cm$^{-1}\cdot$Hz$^{-1/2}$, respectively. The proposed dual-component gas simultaneous detection method can also be used for high-precision simultaneous detection of other gases. Therefore, this study may serve as a reference for developing portable multicomponent gas analyzers.

Keywords: off-axis integrated cavity output spectroscopy wavelength modulation radio frequency (RF) white noise simultaneous detection

Received: 30 March 2023
Revised: 16 May 2023
Accepted manuscript online: 02 June 2023

PACS:	42.68.Ca	(Spectral absorption by atmospheric gases)
	07.88.+y	(Instruments for environmental pollution measurements)
	42.62.Fi	(Laser spectroscopy)
	95.85.Jq	(Near infrared (0.75-3 μm))

Fund: Project supported by the National Natural Science Foundation of China (Grant Nos. 62005108 and 62205134), the National Key Research and Development Program of China (Grant No. 2022YFC2807701), and the Natural Science Foundation of the Higher Education Institutions of Jiangsu Province, China (Grant Nos. 20KJB140009 and 21KJB140008).

Corresponding Authors: Jing-Jing Wang, Gui-Lin Mao
E-mail: jin16217@mail.ustc.edu.cn;maoguilin@jsnu.edu.cn

Cite this article:

Yi-Xuan Liu(刘艺璇), Zhou-Bing Wang(王周兵), Xin-Xin Wei(韦欣欣), Jing-Jing Wang(王静静), Xin Meng(孟鑫), and Gui-Lin Mao(毛桂林) Simultaneous detection of CH₄ and CO₂ through dual modulation off-axis integrated cavity output spectroscopy 2023 Chin. Phys. B 32 104209

[1] Pan B H 2022 Ecological Economy 38 1
[2] Qu J S, Chen W, Zeng J J, Sun Y L, Liao Q, Guo K M, Qin A N, Pei H J, Teng F, Liu Y F, Yue F, Liu L N, Tang Y and Li L C 2022 Bull. Chin. Acad. Sci. 37 444
[3] Nadeem F, Mandon J, Cristescu S M and Harren F J M 2018 Appl. Opt. 57 29
[4] Stewart G 2021 Laser and Fiber Optic Gas Absorption Spectroscopy (Cambridge: Cambridge University Press) p. 125
[5] Ciaffoni L, Couper J, Hancock G, Peverall R, Robbins P A and Ritchie G A D 2014 Opt. Express 22 17030
[6] Manfred K M, Kirkbride J M R, Ciaffoni L, Peverall R and Ritchie G A D 2014 Opt. Lett. 39 6811
[7] Shao L, Chen J, Wang K, Mei J, Tan T, Wang G, Liu K and Gao X 2022 Sensor. Actuat. B-Chem. 352 130995
[8] Kasyutich V L, Canosa-Mas C E, Pfrang C, Vaughan S and Wayne R P 2002 Appl. Phys. B 75 755
[9] Zhao W, Gao X, Chen W, Zhang W, Huang T, Wu T and Cha H 2007 Appl. Phys. B 86 353
[10] Wang J, Tian X, Dong Y, Chen J and Gao X 2019 Opt. Lett. 44 3298
[11] Dong Y, Wang J J, Zhou X Y, Zhu G D, Qu K, Wu X E, Lv W J, Wen M M, Tan T and Liu K 2020 Chin. J. Lasers 47 0811003
[12] Wang K, Shao L, Chen J, Wang G, Liu K, Tan T, Mei J, Chen W and Gao X 2020 Sensors 20 21
[13] Gagliardi G and Loock H P 2014 Cavity-enhanced spectroscopy and sensing (Heidelberg: Springer) p. 16
[14] Chao X, Shen G, Sun K, Wang Z, Meng Q, Wang S and Hanson R K 2019 P. Combust. Inst. 37 1345
[15] Engel G S, Moyer E J, Keutsch F N and Anderson J G 2001 Proceedings of the NASA Earth Science Technology Conference (ESTC), College Park, MD, USA, p. 28
[16] Pinto T H P, Kirkbride J M R and Ritchie G A D 2018 Opt. Lett. 43 1931
[17] Stéphan G M, Tam T T, Blin S, Besnard P and Têtu M 2005 Phys. Rev. A 71 043809
[18] Wang J J, Dong Y, Tian X, Chen J J, Tan T, Zhu G D, Mei J X and Gao X M 2020 Spectrosc. Spect. Anal. 40 2657
[19] Wang G, Mei J, Tian X, Liu K, Tan T, Chen W and Gao X 2019 Opt. Express 27 4878
[20] Philippe L C and Hanson R K 1993 Appl. Opt. 32 6090
[21] Kluczynski P, Gustafsson J, Lindberg S M and Axner O 2001 Spectrochim. Acta B 56 1277
[22] Reid J and Labrie D 1981 Appl. Phys. B 26 203
[23] Schilt S, Thévenaz L and Robert P 2003 Appl. Opt. 42 6728
[24] Chakraborty A L, Ruxton K and Johnstone W 2010 Opt. Lett. 35 2400
[25] Liu J T C, Jeffries J B and Hanson R K 2004 Appl. Phys. B 78 503
[26] Moyer E J, Sayres D S, Engel G S, Clair J M St, Keutsch F N, Allen N T, Kroll J H and Anderson J G 2008 Appl. Phys. 92 467

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Simultaneous detection of CH4 and CO2 through dual modulation off-axis integrated cavity output spectroscopy

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Simultaneous detection of CH₄ and CO₂ through dual modulation off-axis integrated cavity output spectroscopy