7.3-10.5 µm Tunable Single-frequency Parametric Source for Standoff Detection of Gaseous Chemicals

Julie Armougom; Jean-Michel Melkonian; Myriam Raybaut; Jean-Baptiste Dherbecourt; Guillaume Gorju; Antoine Godard; Riaan Cotzee; Valdas Pašiškevičius; Jiří Kadlčák

doi:10.1364/MICS.2018.MM4C.7

High-Brightness Sources and Light-driven Interactions
OSA Technical Digest (online) (Optica Publishing Group, 2018),
paper MM4C.7
•https://doi.org/10.1364/MICS.2018.MM4C.7

7.3-10.5 µm Tunable Single-frequency Parametric Source for Standoff Detection of Gaseous Chemicals

Julie Armougom, Jean-Michel Melkonian, Myriam Raybaut, Jean-Baptiste Dherbecourt, Guillaume Gorju, Antoine Godard, Riaan Cotzee, Valdas Pašiškevičius, and Jiří Kadlčák

Mid-Infrared Coherent Sources 2018

Strasbourg France
26–28 March 2018
ISBN: 978-1-943580-40-8

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Remote Sensing and Imaging (MM4C)

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J. Armougom, J. Melkonian, M. Raybaut, J. Dherbecourt, G. Gorju, A. Godard, R. Cotzee, V. Pašiškevičius, and J. Kadlčák, "7.3-10.5 µm Tunable Single-frequency Parametric Source for Standoff Detection of Gaseous Chemicals," in High-Brightness Sources and Light-driven Interactions, OSA Technical Digest (online) (Optica Publishing Group, 2018), paper MM4C.7.

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Abstract

We report on the first single-frequency parametric source tunable in the longwave infrared with an output energy of 1 mJ. The source is then used in a lidar to detect chemicals in the vapor phase.

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