Mid-Infrared Distributed-Feedback Quantum Cascade Laser-Based Photoacoustic Detection of Trace Methane Gas
There have been considerable interests in methane detection based on infrared absorption spectroscopy for industrial and environment monitoring. The authors report on the realization of photoacoustic detection of methane (CH4) using mid-infrared distributed-feedback quantum
cascade laser (DFB-QCL). The absorption line at 1 316.83 cm-1 was selected for CH4 detection, which can be reached by the self-manufactured DFB-QCL source operating in pulsed mode near 7.6 μm at room-temperature. The CH4 gas is filled to a Helmholtz resonant
photoacoustic cell, which was equipped with a commercial electret microphone. The DFB-QCL was operated at 234 Hz with an 80 mW optical peak power. A detection limit of 189 parts per billion in volume was derived when the signal-to-noise ratio equaled 1.
Keywords: Distributed-feedback; Methane; Photoacoustic spectroscopy; Quantum cascade laser; Trace gas detection
Document Type: Research Article
Publication date: 01 May 2012
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