Add to ORKGIn this article a route to analyze the full optical response of plasmonic structures is developed. First, the simple case of an anisotropic thin plasmonic layer supported on a transparent substrate is analyzed by introducing a quantity named anisotropic surface excess function (ASEF). The spectral features are analyzed in terms of effective dielectric function, demonstrating a more direct relation with the plasmonic response of the layer. The formalism is then generalized using a transfer matrix method. The formalism developed is supported by experimental evidence obtained by measuring the response of anisotropic nanoparticle arrays grown at a glancing angle. The agreement between theory and experiment is clear, suggesting that SE can be co...
To detect and analyze molecular species of interest, analytical sciences and technologies exploit th...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
Plasmonic nanoparticles support surface plasmon resonances that are sensitive to the environment. Fa...
In this article a route to analyze the full optical response of plasmonic structures is developed. F...
A simplified approach to investigate the out-of-plane response of plasmonic nanostructures using spe...
In this article, spectroscopic ellipsometry studies of plasmon resonances at metal–dielectric interf...
International audienceA predictive modelling of plasmonic substrates appropriate to read ellipsometr...
Plasmonic is an emerging branch of nanophotonics wherein the electromagnetic properties of nanoparti...
Plasmonic properties of metal nanostructures are appealing due to their potential to enhance photovo...
Surface plasmon resonance (SPR) of nanostructured thin metal films (so-called nanoplasmonics) has at...
A self-contained formulation for analyzing electromagnetic scattering by a significant class of plan...
Surface plasmons are charge density oscillations that can couple strongly to light and be excited in...
The optical response of realistic 3D plasmonic substrates composed of randomly shaped particles of d...
Surface plasmon resonance has attracted more and more attention thanks to its wide range of applicat...
In recent times a new emerging research field has become more and more popular in the optics communi...
To detect and analyze molecular species of interest, analytical sciences and technologies exploit th...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
Plasmonic nanoparticles support surface plasmon resonances that are sensitive to the environment. Fa...
In this article a route to analyze the full optical response of plasmonic structures is developed. F...
A simplified approach to investigate the out-of-plane response of plasmonic nanostructures using spe...
In this article, spectroscopic ellipsometry studies of plasmon resonances at metal–dielectric interf...
International audienceA predictive modelling of plasmonic substrates appropriate to read ellipsometr...
Plasmonic is an emerging branch of nanophotonics wherein the electromagnetic properties of nanoparti...
Plasmonic properties of metal nanostructures are appealing due to their potential to enhance photovo...
Surface plasmon resonance (SPR) of nanostructured thin metal films (so-called nanoplasmonics) has at...
A self-contained formulation for analyzing electromagnetic scattering by a significant class of plan...
Surface plasmons are charge density oscillations that can couple strongly to light and be excited in...
The optical response of realistic 3D plasmonic substrates composed of randomly shaped particles of d...
Surface plasmon resonance has attracted more and more attention thanks to its wide range of applicat...
In recent times a new emerging research field has become more and more popular in the optics communi...
To detect and analyze molecular species of interest, analytical sciences and technologies exploit th...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
Plasmonic nanoparticles support surface plasmon resonances that are sensitive to the environment. Fa...