Sub-ppb-level CH4 detection by exploiting a low-noise differential photoacoustic resonator with a room-temperature interband cascade laser

Huadan Zheng; Yihua Liu; Haoyang Lin; Ruifeng Kan; Pietro Patimisco; Angelo Sampaolo; Marilena Giglio; Wenguo Zhu; Jianhui Yu; Frank K Tittel; Vincenzo Spagnolo; Zhe Chen

doi:10.1364/OE.391322

Sub-ppb-level CH₄ detection by exploiting a low-noise differential photoacoustic resonator with a room-temperature interband cascade laser

Opt Express. 2020 Jun 22;28(13):19446-19456. doi: 10.1364/OE.391322.

Authors

Huadan Zheng, Yihua Liu, Haoyang Lin, Ruifeng Kan, Pietro Patimisco, Angelo Sampaolo, Marilena Giglio, Wenguo Zhu, Jianhui Yu, Frank K Tittel, Vincenzo Spagnolo, Zhe Chen

PMID: 32672221
DOI: 10.1364/OE.391322

Abstract

An ultra-highly sensitive and robust CH₄ sensor is reported based on a 3.3 µm interband cascade laser (ICL) and a low-noise differential photoacoustic (PAS) cell. The ICL emission wavelength targeted a fundamental absorption line of CH₄ at 2988.795 cm^-1 with an intensity of 1.08 × 10^-19 cm/molecule. The double-pass and differential design of the PAS cell effectively enhanced the PAS signal amplitude and decreased its background noise. The wavelength modulation depth, operating pressure and V-T relaxation promotion were optimized to maximize the sensor detection limit. With an integration time of 90 s, a detection limit of 0.6 ppb was achieved. No additional water or air laser cooling were required and thereby allowing the realization of a compact and robust CH₄ sensor.