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High-sensitivity miniature dual-resonance photoacoustic sensor based on silicon cantilever beam for trace gas sensing

Guojie Wu, Zhenfeng Gong, Junsheng Ma, Haie Li, Min Guo, Ke Chen, Wei Peng, Qingxu Yu, Liang Mei

2022Photoacoustics50 citationsDOIOpen Access PDF

Abstract

We report a miniature dual-resonance photoacoustic (PA) sensor, mainly consisting of a small resonant T-type PA cell and an integrated sensor probe based on a silicon cantilever beam. The resonance frequency of the miniature T-type PA cell is matched with the first-order natural frequency of the cantilever beam to achieve double resonance of the acoustic signal. The volume of the designed T-type PA cell is only about 2.26 cubic centimeters. A PA spectroscopy (PAS) system, employing the dual-resonance photoacoustic (PA) sensor as the prober and a high-speed spectrometer as the demodulator, has been implemented for high-sensitivity methane sensing. The sensitivity and the minimum detection limit can reach up to 2.0 pm/ppm and 35.6 parts-per-billion, respectively, with an averaging time of 100 s. The promising performance demonstrated a great potential of employing the reported sensor for high-sensitivity gas sensing in sub cubic centimeter-level spaces.

Topics & Concepts

Resonance (particle physics)Sensitivity (control systems)CantileverMaterials sciencePhotoacoustic spectroscopyDetection limitSpectrometerDemodulationOptoelectronicsSiliconBeam (structure)Photoacoustic imaging in biomedicineOpticsChemistryElectrical engineeringElectronic engineeringPhysicsAtomic physicsEngineeringChromatographyChannel (broadcasting)Composite materialSpectroscopy and Laser ApplicationsAtmospheric Ozone and ClimateAtmospheric and Environmental Gas Dynamics
High-sensitivity miniature dual-resonance photoacoustic sensor based on silicon cantilever beam for trace gas sensing | Litcius