Publikace: Carbon dioxide mid-infrared sensing based on Dy3+-doped chalcogenide waveguide photoluminescence
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Bodiou, Loic
Baillieul, Marion
Nazabal, Virginie
Lemaitre, Jonathan
Benardais, Albane
Meziani, Sofiane
Lorrain, Nathalie
Dumeige, Yannick
Němec, Petr
Charrier, Joel
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Optical Society of America
Abstrakt
Climate-active gases, notably carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O), display fundamental absorption bands in the mid-infrared (mid-IR). The detection and monitoring of those gases could be enabled by the development of mid-IR optical sources. Broadband mid-IR on-chip light emission from rare-earth-doped chalcogenide photonic integrated circuits could provide a compact, efficient, and cost-effective gas sensing solution. Mid-IR photoluminescence of dysprosium-doped selenide ridge waveguides obtained under optical pumping at a telecommunication wavelength (1.3 mu m) is investigated for Dy3+ ion concentrations in the 2500-10,000 ppmw range. CO2 detection at around 4.3 mu m is then demonstrated based on absorption of this broadband mid-IR emission.
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CO2 sensing, chalcogenide waveguides, photoluminescence, detekce CO2, chalkogenidové vlnovody, fotoluminiscence