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A MEMS modulator-based dual-channel mid-infrared laser heterodyne radiometer for simultaneous remote sensing of atmospheric CH<sub>4</sub>, H<sub>2</sub>O and N<sub>2</sub>O

Zhengyue Xue, Fengjiao Shen, Jun Li, Xiaohai Liu, Jingjing Wang, Guishi Wang, Kun Liu, Weidong Chen, Xiaoming Gao, Tu Tan

2022Optics Express12 citationsDOIOpen Access PDF

Abstract

The performance of a micro-electro-mechanical system (MEMS) modulator-based dual-channel mid-infrared laser heterodyne radiometer (MIR-LHR) was demonstrated in ground-based solar occultation mode for the first time. A MEMS mirror was employed as an alternative modulator to the traditional mechanical chopper, which makes the system more stable and compact. Two inter-band cascade lasers (ICL) centered at 3.53 µ m and 3.93 µ m, were employed as local oscillators (LO) to probe absorption lines of methane (CH4), water vapor (H 2 O) and nitrous oxide (N 2 O). The system stability greater than 1000 s was evaluated by Allan variance. The experimental MIR-LHR spectra (acquired at Hefei, China, on February 24th 2022) of two channels were compared and were in good agreement with simulation spectra from atmospheric transmission modeling. The mixing ratio of CH 4 , H 2 O and N 2 O were determined to be ∼1.906 ppm, 3069 ppm and ∼338 ppb, respectively. The reported MEMS modulator-based dual-channel MIR-LHR in this manuscript has great potential to be a portable and high spectral resolution instrument for remote sensing of multi-component gases in the atmospheric column.

Topics & Concepts

RadiometerOpticsInfrared windowMaterials scienceHeterodyne (poetry)Allan varianceQuantum cascade laserLaserRemote sensingOptoelectronicsInfraredPhysicsStandard deviationAcousticsStatisticsMathematicsGeologyAtmospheric and Environmental Gas DynamicsSpectroscopy and Laser ApplicationsAtmospheric Ozone and Climate
A MEMS modulator-based dual-channel mid-infrared laser heterodyne radiometer for simultaneous remote sensing of atmospheric CH<sub>4</sub>, H<sub>2</sub>O and N<sub>2</sub>O | Litcius