Plasmonic effects enhance light-matter interactions for advanced metamaterials with tunable properties and broad spectral responses. Noble metals limit modulation beyond the visible range. This work develops novel meta-structures using alternative plasmonic materials (transparent conductors, nitrides, oxynitrides) to achieve customizable plasmonic properties from visible to infrared for extreme light control.
Plasmonic Multilayers Metamaterials combining Nitrides, Oxynitrides and Transparent Conductors with novel, broad and tunable properties
Caligiuri V.;De Luca A.;Li Bassi A.
2025-01-01
Abstract
Plasmonic effects enhance light-matter interactions for advanced metamaterials with tunable properties and broad spectral responses. Noble metals limit modulation beyond the visible range. This work develops novel meta-structures using alternative plasmonic materials (transparent conductors, nitrides, oxynitrides) to achieve customizable plasmonic properties from visible to infrared for extreme light control.File in questo prodotto:
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