Miniaturization of a multi-gas sensor for environmental gases based on mid-infrared Quantum Cascade Lasers (QCL) and Silicon integration of Photoacoustic Cells

Christophe Constancias; Badhise Ben Bakir; Maeva Doron; Maxime Dubois; Olivier Lartigue; Gilles Lasfargues; Jules Skubich; Marion Volpert; Germain Magat; Julien Marianne; Philippe Labazuy; Philippe Labazuy; Séverine Moune; Séverine Moune; Edouard Régis; Edouard Régis

Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023)
Technical Digest Series (Optica Publishing Group, 2023),
paper ch_p_22

Miniaturization of a multi-gas sensor for environmental gases based on mid-infrared Quantum Cascade Lasers (QCL) and Silicon integration of Photoacoustic Cells

Christophe Constancias, Badhise Ben Bakir, Maeva Doron, Maxime Dubois, Olivier Lartigue, Gilles Lasfargues, Jules Skubich, Marion Volpert, Germain Magat, Julien Marianne, Philippe Labazuy, Séverine Moune, and Edouard Régis

The European Conference on Lasers and Electro-Optics 2023

Munich Germany
26–30 June 2023
ISBN: 979-8-3503-4599-5

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C. Constancias, B. Ben Bakir, M. Doron, M. Dubois, O. Lartigue, G. Lasfargues, J. Skubich, M. Volpert, G. Magat, J. Marianne, P. Labazuy, S. Moune, and E. Régis, "Miniaturization of a multi-gas sensor for environmental gases based on mid-infrared Quantum Cascade Lasers (QCL) and Silicon integration of Photoacoustic Cells," in Conference on Lasers and Electro-Optics/Europe (CLEO/Europe 2023) and European Quantum Electronics Conference (EQEC 2023), Technical Digest Series (Optica Publishing Group, 2023), paper ch_p_22.

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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].

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