Abstract
For environmental purposes, it is important to measure the temporal and spatial variations of a number of gases. Human-related activities’ gases emissions need monitoring relatively to climate change, landfill survey or air pollution. A current limitation is the deficiency of compact and lightweight manufactured sensors capable of selectively quantifying air pollutants, such as CO2, CH4, CO or N2O. Currently used multi-gas sensors are expensive, large and need calibration frequently for each gas to be detected. Photoacoustic Spectroscopy has demonstrated to be a promising technology for addressing downsizing and integration of multi-gas detection. This shows the potential for miniaturization of mid-IR sensors [1], [2].
© 2023 IEEE
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