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Multi-mechanism collaboration enhanced photoacoustic analyzer for trace H2S detection

Min Guo, Xinyu Zhao, Ke Chen, Dongyu Cui, Guangyin Zhang, Chenxi Li, Zhenfeng Gong, Qingxu Yu

2023Photoacoustics27 citationsDOIOpen Access PDF

Abstract

To realize the real-time highly sensitive detection of SF6 decomposition product H2S, a multi-mechanism collaboration enhancement photoacoustic spectroscopy analyzer (MCEPA) based on acoustic resonance enhancement, cantilever enhancement and excitation light enhancement is proposed. An SF6 background gas-induced photoacoustic cell (PAC) was used for acoustic resonance (AR) enhancement of the photoacoustic signals. A fiber-optic acoustic sensor based on a silicon cantilever is optimized and fabricated. The narrow-band acoustic signal enhancement based on cantilever mechanical resonance (MR) is realized in the optimal working frequency band of the PAC. A fiber-coupled DFB cascaded an Erbium-doped fiber amplifier (EDFA) realized the light power enhancement (LPE) of the photoacoustic signals excitation source. Experimental results show that the MR of the fiber-optic silicon cantilever acoustic sensor (FSCAS) is matched with the AR of the PAC and combined with the LPE, which realizes the multi-mechanism collaboration enhancement of weak photoacoustic signals. The Allan-Werle deviation evaluation showed that the minimum detection limit of H2S in the SF6 background is 10.96 ppb when the average time is 200 s. Benefiting from the all-optimization of photoacoustic excitation and detection, the MCEPA has near-field high-sensitivity gas detection capability immune to electromagnetic interference.

Topics & Concepts

Materials scienceSpectrum analyzerPhotoacoustic effectCantileverSIGNAL (programming language)Photoacoustic spectroscopyOptoelectronicsOptical fiberPhotoacoustic imaging in biomedicinePiezoelectricityExcitationOpticsComputer scienceComposite materialPhysicsProgramming languageElectrical engineeringEngineeringSpectroscopy and Laser ApplicationsAdvanced Chemical Sensor TechnologiesGas Sensing Nanomaterials and Sensors
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