Add to ORKGSurface plasmon polariton modes on cylindrical nanowires remain accessible for applications even when the wire radius is only a small fraction of the wavelength. Abrupt wire termination constitutes a basic discontinuity that underlies many of the wire functions. The diffraction of the surface plasmon modes by the discontinuity is investigated. The near field around the termination plane is determined with no simplifying assumptions of the physical aspects of the diffraction process. The transmitted and reflected fields are calculated for wires in vacuum. Full conversion of the surface plasmon mode energy into light is shown to occur at specific values of the wire radius
We numerically study the effect of structural asymmetry in a plasmonic metamaterial made from gold n...
We study the dielectric constant dependent diffraction phenomena of single slit apertures, both theo...
Near-field imaging is a powerful tool to investigate the complex structure of light at the nanoscale...
Surface plasmon polariton modes on cylindrical nanowires remain accessible for applications even whe...
We launch surface plasmons from one end of a silver nanowire by asym-metric illumination with white ...
We have studied surface plasmon modes on silver and gold nanowires of a fixed cross section and diff...
We have studied surface plasmon modes on silver and gold nanowires of a fixed cross section and diff...
We discuss the characteristics of surface plasmon modes guided on metallic nanowires of circular cro...
Abstract—The surface-plasmon-polaritons supported by a metal stripe are of theoretical and experimen...
We study the transversal and longitudinal localized surface plasmon resonances in single nanowires a...
International audienceWe use a photon scanning tunneling microscope to probe the field of surface pl...
Over the past few decades optics has begun to take over some of the duties of electronics. The prima...
The plasmon mode characteristics of metallic nanowire embedded in a uniaxial anisotropic dielectric ...
Plasmonic circuitry is considered as a promising solution-effectivetechnology for miniaturizing and ...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
We numerically study the effect of structural asymmetry in a plasmonic metamaterial made from gold n...
We study the dielectric constant dependent diffraction phenomena of single slit apertures, both theo...
Near-field imaging is a powerful tool to investigate the complex structure of light at the nanoscale...
Surface plasmon polariton modes on cylindrical nanowires remain accessible for applications even whe...
We launch surface plasmons from one end of a silver nanowire by asym-metric illumination with white ...
We have studied surface plasmon modes on silver and gold nanowires of a fixed cross section and diff...
We have studied surface plasmon modes on silver and gold nanowires of a fixed cross section and diff...
We discuss the characteristics of surface plasmon modes guided on metallic nanowires of circular cro...
Abstract—The surface-plasmon-polaritons supported by a metal stripe are of theoretical and experimen...
We study the transversal and longitudinal localized surface plasmon resonances in single nanowires a...
International audienceWe use a photon scanning tunneling microscope to probe the field of surface pl...
Over the past few decades optics has begun to take over some of the duties of electronics. The prima...
The plasmon mode characteristics of metallic nanowire embedded in a uniaxial anisotropic dielectric ...
Plasmonic circuitry is considered as a promising solution-effectivetechnology for miniaturizing and ...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
We numerically study the effect of structural asymmetry in a plasmonic metamaterial made from gold n...
We study the dielectric constant dependent diffraction phenomena of single slit apertures, both theo...
Near-field imaging is a powerful tool to investigate the complex structure of light at the nanoscale...