We derive a formula for phase retardation effects in plasmonic systems. We analyze the circular dichroic response (CD) of two orthogonal Au nanorods in detail and we show that, although the circular dichroism stems from the dipole-dipole interaction between the particles, CD response of the system can be much greater for weakly coupled particles
Plasmon hybridization theory (PHT) is an analytical model developed for understanding plasmonic inte...
When nanorods of Au, Ag and some other elements are aligned with a preferred orientation with respec...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
We derive a formula for phase retardation effects in plasmonic systems. We analyze the circular dic...
We introduce a matrix method and we derive a formula for phase retardation effects in plasmonic syst...
Chiral metal nanoparticle assemblies exhibit plasmonic circular dichroism (CD) in the visible spectr...
Reversible plasmonic circular dichroism (CD) responses are realized for the first time based on temp...
Because of their unique optical properties, gold nanoparticles have potential applications in the co...
Chiral plasmonic systems have been shown to exhibit large chiroptical responses, much larger than th...
The retardation-effect-induced plasmon modes in a silica-core gold-shell nanocylinder pair is invest...
We report a computational study at the time-dependent density functional theory (TDDFT) level of the...
The influence of size and geometrical shape on the optical properties of randomly oriented metallic ...
The influence of size and geometrical shape on the optical properties of randomly oriented metallic ...
We have studied the optical response of chiral metastructures composed of a disordered array of coup...
In a Drude-like model for the conduction electrons of Metal Nanoparticles (MNPs) in a periodic linea...
Plasmon hybridization theory (PHT) is an analytical model developed for understanding plasmonic inte...
When nanorods of Au, Ag and some other elements are aligned with a preferred orientation with respec...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
We derive a formula for phase retardation effects in plasmonic systems. We analyze the circular dic...
We introduce a matrix method and we derive a formula for phase retardation effects in plasmonic syst...
Chiral metal nanoparticle assemblies exhibit plasmonic circular dichroism (CD) in the visible spectr...
Reversible plasmonic circular dichroism (CD) responses are realized for the first time based on temp...
Because of their unique optical properties, gold nanoparticles have potential applications in the co...
Chiral plasmonic systems have been shown to exhibit large chiroptical responses, much larger than th...
The retardation-effect-induced plasmon modes in a silica-core gold-shell nanocylinder pair is invest...
We report a computational study at the time-dependent density functional theory (TDDFT) level of the...
The influence of size and geometrical shape on the optical properties of randomly oriented metallic ...
The influence of size and geometrical shape on the optical properties of randomly oriented metallic ...
We have studied the optical response of chiral metastructures composed of a disordered array of coup...
In a Drude-like model for the conduction electrons of Metal Nanoparticles (MNPs) in a periodic linea...
Plasmon hybridization theory (PHT) is an analytical model developed for understanding plasmonic inte...
When nanorods of Au, Ag and some other elements are aligned with a preferred orientation with respec...
Gold nanorods have interesting optical properties due to surface plasmon resonance effects. A variet...
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