Compact Hollow Waveguide Mid-Infrared Gas Sensor For Simultaneous Measurements of Ambient CO 2 and Water Vapor - Université du Littoral Côte d'Opale
Article Dans Une Revue Journal of Lightwave Technology Année : 2020

Compact Hollow Waveguide Mid-Infrared Gas Sensor For Simultaneous Measurements of Ambient CO 2 and Water Vapor

Tao Wu
Qiang Wu
Weidong Chen
Chenwen Ye
Rongjing Hu

Résumé

A compact, sensitive and stable hollow waveguide (HWG) mid-infrared gas sensor, based on gas absorption lines using wavelength modulation spectroscopy with a second harmonic (WMS-2f) detection scheme, was developed for simultaneous measurements of ambient CO 2 and water vapor. Optimization of the laser modulation parameters and pressure parameter in the HWG are performed to improve the strength of the WMS-2f signal and hence the detection limit, where 14.5-time for CO 2 and 8.5-time for water vapor improvement in system detection limit is achieved compared to those working at 1 atm. The stability of the sensor has been improved significantly by optimizing environmental disturbances, incoupling alignment of the HWG and laser scanning frequency. An Allan variance analysis shows detection limit of the developed sensor of ~3 ppmv for CO 2 and 0.018% for water vapor, which correspond to an absorbance of 2.4 × 10 -5 and 2.7 × 10 -5 , with a stability time of 160 s, respectively. Ambient CO 2 and water vapor measurement have been performed in two days in winter and spring separately. The measurement precision is further improved by applying a Kalman adaptive filter. The HWG gas sensor demonstrates the ability in environmental monitoring and the potential to be used in other areas, such as industrial production and biomedical diagnosis.
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Dates et versions

hal-04290693 , version 1 (13-09-2024)

Identifiants

Citer

Tao Wu, Weiping Kong, Mengyu Wang, Qiang Wu, Weidong Chen, et al.. Compact Hollow Waveguide Mid-Infrared Gas Sensor For Simultaneous Measurements of Ambient CO 2 and Water Vapor. Journal of Lightwave Technology, 2020, 38 (16), pp.4580-4587. ⟨10.1109/JLT.2020.2990977⟩. ⟨hal-04290693⟩

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