Litcius/Paper detail

Humidity enhanced N2O photoacoustic sensor with a 4.53 μm quantum cascade laser and Kalman filter

Yuan Cao, Ruifeng Wang, Jie Peng, Kun Liu, Weidong Chen, Guishi Wang, Xiaoming Gao

2021Photoacoustics42 citationsDOIOpen Access PDF

Abstract

A high-sensitivity N2O photoacoustic sensor using a 4.53 μm quantum cascade laser was developed. Sharply enhancement of photoacoustic signal of N2O with the increasing of humidity was investigated experimentally. Finally, 2.3 % water vapor was added to the analyzed sample to improve the vibrational-translational (VT) relaxation rate of N2O molecule transition, and therefore enhance the N2O photoacoustic signal. High performance with a minimum detection limit of 28 ppbv in 1 s and a measurement precision of 34 ppbv have been achieved, respectively. Kalman adaptive filtering was used to remove the shot-to-shot variability related to the real-time noise in the measurement data and further improve the measurement precision. Without sacrificing the time resolution of the system, the Kalman adaptive filtering improves the measurement precision of the system by 2.3 times. The ability of the N2O photoacoustic sensor was demonstrated by continuous measurement of atmospheric N2O concentration for a period of 7 h.

Topics & Concepts

Quantum cascade laserCascadeKalman filterPhotoacoustic spectroscopyLaserMaterials scienceSIGNAL (programming language)Photoacoustic imaging in biomedicineHumidityAccuracy and precisionOpticsEnvironmental sciencePhysicsChemistryMeteorologyComputer scienceQuantum mechanicsProgramming languageChromatographyArtificial intelligenceSpectroscopy and Laser ApplicationsLaser Design and ApplicationsAtmospheric and Environmental Gas Dynamics
Humidity enhanced N2O photoacoustic sensor with a 4.53 μm quantum cascade laser and Kalman filter | Litcius