In this work we present a simple transfer-matrix based modeling tool for arbitrarily layered stacks of resonant plasmonic metasurfaces interspersed with dielectric and metallic multilayers. We present the application of this model by analyzing three seminal problems in nanophotonics. These are the scenario of perfect absorption in plasmonic Salisbury screens, strong coupling of microcavity resonances with the resonance of plasmon nano-antenna metasurfaces, and the hybridization of cavities, excitons and metasurface resonances
We consider plasmonic metasurfaces constituted by an arbitrary periodic arrangement of spherical met...
We consider the response of etalons created by a combination of a conventional mirror and a metasurf...
En el presente trabajo se deducen analíticamente las funciones de reflectancia cuando existe generac...
We present calculations for the electromagnetic reflectance spectra of finite multilayered systems (...
We have studied several metamaterials structures with multiple layers by explaining them theoretical...
International audienceWe compute the reflectance properties of a metasurface that consists of a doub...
Active nanoparticle arrays are an attractive platform for manipulating light-matter interactions on ...
In this contribution, we put forward an analytical model for the design of lossless and lossy nanopa...
International audienceThe present study aims to model the optical response of plasmonic metasurfaces...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
We show theoretically that a two-dimensional periodic array of metallic nanocubes in close proximity...
Mirror-on-mirror platforms based on arrays of metallic nanoparticles, arranged top-down or self-asse...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
Optical fields in metamaterial nanostructures can be separated into bright modes, whose dispersion i...
International audienceSurface plasmon hybridization provides new perspectives for light manipulation...
We consider plasmonic metasurfaces constituted by an arbitrary periodic arrangement of spherical met...
We consider the response of etalons created by a combination of a conventional mirror and a metasurf...
En el presente trabajo se deducen analíticamente las funciones de reflectancia cuando existe generac...
We present calculations for the electromagnetic reflectance spectra of finite multilayered systems (...
We have studied several metamaterials structures with multiple layers by explaining them theoretical...
International audienceWe compute the reflectance properties of a metasurface that consists of a doub...
Active nanoparticle arrays are an attractive platform for manipulating light-matter interactions on ...
In this contribution, we put forward an analytical model for the design of lossless and lossy nanopa...
International audienceThe present study aims to model the optical response of plasmonic metasurfaces...
Here we discuss the theory and analyze in detail the guidance properties of linear arrays of metamat...
We show theoretically that a two-dimensional periodic array of metallic nanocubes in close proximity...
Mirror-on-mirror platforms based on arrays of metallic nanoparticles, arranged top-down or self-asse...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
Optical fields in metamaterial nanostructures can be separated into bright modes, whose dispersion i...
International audienceSurface plasmon hybridization provides new perspectives for light manipulation...
We consider plasmonic metasurfaces constituted by an arbitrary periodic arrangement of spherical met...
We consider the response of etalons created by a combination of a conventional mirror and a metasurf...
En el presente trabajo se deducen analíticamente las funciones de reflectancia cuando existe generac...