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Development of a Stable Oxygen Sensor Using a 761 nm DFB Laser and Multi-Pass Absorption Spectroscopy for Field Measurements

Jvqiang Chang, Qixin He, Mengxin Li

2023Sensors11 citationsDOIOpen Access PDF

Abstract

An optical sensor system based on wavelength modulation spectroscopy (WMS) was developed for atmospheric oxygen (O2) detection. A distributed feedback (DFB) laser with butterfly packaging was used to target the O2 absorption line at 760.89 nm. A compact multi-pass gas cell was employed to increase the effective absorption length to 3.3 m. To ensure the stability and anti-interference capability of the sensor in field measurements, the optical module was fabricated with isolation of ambient light and vibration design. A 1f normalized 2f WMS (WMS-2f/1f) technique was adopted to reduce the effect of laser power drift. In addition, a LabVIEW-based dual-channel lock-in amplifier was developed for harmonic detection, which significantly reduced the sensor volume and cost. The detailed detection principle was described, and a theoretical model was established to verify the effectiveness of the technique. Experiments were carried out to obtain the device’s sensing performances. An Allan deviation analysis yielded a minimum detection limit of 0.054% for 1 s integration time that can be further improved to 0.009% at ~60 s. Finally, the reliability and anti-interference capability of the sensor system were verified by the atmospheric O2 monitoring.

Topics & Concepts

Lock-in amplifierLaserMaterials scienceInterference (communication)Absorption (acoustics)Distributed feedback laserAbsorption spectroscopySpectroscopyOpticsAmplifierOptoelectronicsWavelengthComputer scienceChannel (broadcasting)PhysicsTelecommunicationsCMOSQuantum mechanicsSpectroscopy and Laser ApplicationsAtmospheric Ozone and ClimateLaser Design and Applications