Photonics Department team from the Laboratoire ICB on the cover of the scientific journal “Applied Optical Materials”
The article “Hot Carrier-Induced Nonlinear Photoluminescence in a Thin Indium Tin Oxide Layer Patterned by Ga Ion Beam Milling" conducted by the Photonics Department and the ARCEN CARNOT platform of the Laboratoire ICB is the inaugural cover story of the first issue of ACS Applied Optical Materials
In its publication, the research team explores the non-linear photoluminescence resulting from the radiative decay of a non-equilibrium electron population generated by the ultrafast optical pumping of an indium-tin oxide (ITO) layer etched by a focused Ga ion beam.
This discovery brings a new optical dimension to a complex material that is commonly used to realize transparent electrodes.
- For more information : Florian Dell’Ova, Konstantin Malchow, Rémi Chassagnon, Olivier Heintz, Nicolas Pocholle, Gérard Colas des Francs, Erik Dujardin, and Alexandre Bouhelier, Hot Carrier-Induced Nonlinear Photoluminescence in a Thin Indium Tin Oxide Layer Patterned by Ga Ion Beam Milling, ACS Applied Optical Materials (2023)
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The article "Hot Carrier-Induced Nonlinear Photoluminescence in a Thin Indium Tin Oxide Layer Patterned by Ga Ion Beam Milling" conducted by the Photonics Department and the ARCEN CARNOT platform of the Laboratoire ICB is the inaugural cover story of the first issue of ACS Applied Optical Materials
[/kc_column_text][kc_spacing height="10px" _id="322276"][/kc_column][/kc_row][kc_row use_container="yes" _id="316285"][kc_column width="45%" _id="179763"][kc_single_image image_size="full" _id="78418" image_source="media_library" image="40898"][/kc_column][kc_column width="5%" _id="356718"][/kc_column][kc_column width="50%" _id="921845"][kc_spacing height="30px" _id="159945"][kc_column_text _id="650808"]In its publication, the research team explores the non-linear photoluminescence resulting from the radiative decay of a non-equilibrium electron population generated by the ultrafast optical pumping of an indium-tin oxide (ITO) layer etched by a focused Ga ion beam.
This discovery brings a new optical dimension to a complex material that is commonly used to realize transparent electrodes.
[/kc_column_text][kc_spacing height="10px" _id="954620"][kc_column_text _id="207905"]- For more information : Florian Dell’Ova, Konstantin Malchow, Rémi Chassagnon, Olivier Heintz, Nicolas Pocholle, Gérard Colas des Francs, Erik Dujardin, and Alexandre Bouhelier, Hot Carrier-Induced Nonlinear Photoluminescence in a Thin Indium Tin Oxide Layer Patterned by Ga Ion Beam Milling, ACS Applied Optical Materials (2023)
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