Add to ORKGABSTRACT: Coupling molecular excitons and localized surface plasmons in hybrid nanostructures leads to appealing, tunable optical properties. In this respect, the knowledge about the excitation dynamics of a quantum emitter close to a plasmonic nanoantenna is of importance from fundamental and practical points of view. We address here the effect of the excited electron tunneling from the emitter into a metallic nanoparticle(s) in the optical response. When close to a plasmonic nanoparticle, the excited state localized on a quantum emitter becomes short-lived because of the electronic coupling with metal conduction band states. We show that as a consequence, the characteristic features associated with the quantum emitter disappear from the o...
We study theoretically the optical response of a nanohybrid comprising a symmetric quantum dimer emi...
205 p.This thesis theoretically addresses the optoelectronic response of metallic nanoparticles (MNP...
Miniaturization of plasmonic devices and the possibility to address single-molecule quantum emitters...
Coupling molecular excitons and localized surface plasmons in hybrid nanostructures leads to appeali...
Coupling molecular excitons and localized surface plasmons in hybrid nanostructures leads to appeali...
Hybrid molecular-plasmonic nanostructures have demonstrated their potential for surface enhanced spe...
We investigate the dynamics of a plasmonic oscillation over a metal nanoparticle when it is strongly...
The optical response of a system formed by a quantum emitter and a plasmonic gap nanoantenna is theo...
We have developed a theory for the photoluminescence and absorption coefficient in nanohybrids made ...
The paper reviews physical concepts related to the collective dynamics of plasmon excitations in met...
Metallic nanoparticles placed in close proximity support strong localized surface plasmon resonances...
This book represents the first detailed description, including both theoretical aspects and experime...
Resumen del trabajo presentado al CECAM workshop on: "Computational plasmonics: an ab initio and mul...
Generalizing a previously developed analytical model of metal-enhanced fluorescence to the case of t...
International audienceThe optical response of a system formed by a quantum emitter and a plasmonic g...
We study theoretically the optical response of a nanohybrid comprising a symmetric quantum dimer emi...
205 p.This thesis theoretically addresses the optoelectronic response of metallic nanoparticles (MNP...
Miniaturization of plasmonic devices and the possibility to address single-molecule quantum emitters...
Coupling molecular excitons and localized surface plasmons in hybrid nanostructures leads to appeali...
Coupling molecular excitons and localized surface plasmons in hybrid nanostructures leads to appeali...
Hybrid molecular-plasmonic nanostructures have demonstrated their potential for surface enhanced spe...
We investigate the dynamics of a plasmonic oscillation over a metal nanoparticle when it is strongly...
The optical response of a system formed by a quantum emitter and a plasmonic gap nanoantenna is theo...
We have developed a theory for the photoluminescence and absorption coefficient in nanohybrids made ...
The paper reviews physical concepts related to the collective dynamics of plasmon excitations in met...
Metallic nanoparticles placed in close proximity support strong localized surface plasmon resonances...
This book represents the first detailed description, including both theoretical aspects and experime...
Resumen del trabajo presentado al CECAM workshop on: "Computational plasmonics: an ab initio and mul...
Generalizing a previously developed analytical model of metal-enhanced fluorescence to the case of t...
International audienceThe optical response of a system formed by a quantum emitter and a plasmonic g...
We study theoretically the optical response of a nanohybrid comprising a symmetric quantum dimer emi...
205 p.This thesis theoretically addresses the optoelectronic response of metallic nanoparticles (MNP...
Miniaturization of plasmonic devices and the possibility to address single-molecule quantum emitters...