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Pré-Publication, Document De Travail Année : 2015

Design of metallic nanoparticle gratings for filtering properties in the visible spectrum

Yoann Brûlé
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  • IdHAL : yoannbrule
Guillaume Demésy
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  • PersonId : 865006
Anne-Laure Fehrembach
Boris Gralak
Evgueni Popov
  • Fonction : Auteur
Gérard Tayeb
Grangier Mathias
  • Fonction : Auteur
Bara David
  • Fonction : Auteur
Philippe Gogol
Béatrice Dagens

Résumé

Plasmonic resonances in metallic nanoparticles are exploited to create efficient optical filtering functions. A finite element method is used to model metallic nanoparticle gratings. The accuracy of this method is shown by comparing numerical results with measurements on a two-dimensional grating of gold nanocylinders with an elliptic cross section. A parametric analysis is then performed in order to design efficient filters with polarization dependent properties together with high transparency over the visible range. The behavior of nanoparticle gratings is also modeled using the Maxwell-Garnett homogenization theory and analyzed by comparison with the diffraction of a single nanoparticle. The proposed structures are intended to be included in optical systems that could find innovative applications
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Dates et versions

hal-01279518 , version 1 (24-10-2023)

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Yoann Brûlé, Guillaume Demésy, Anne-Laure Fehrembach, Boris Gralak, Evgueni Popov, et al.. Design of metallic nanoparticle gratings for filtering properties in the visible spectrum. 2023. ⟨hal-01279518⟩
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