Add to ORKGMetal nanowires are thought to become key elements in future nanophotonics applications. Here we show that single crystal silver nanowires supported on a dielectric interface behave similar to broadband unidirectional antennas for visible, light. The degree of directionality can be controlled through the nanowire radius and its dielectric environment and the effect can be interpreted in terms of so-called leakage radiation from surface plasmons propagating in a single direction along a wire. We measure a forward-to-backward emission ratio exceeding 15 dB and an angular spread of 4 degrees for wires with radii of the order 150 nm on glass in air. These findings could pave the way for development of metal nanowires as subwavelength directors ...
Semiconductor nanowires combine the material properties of semiconductors, which are ubiquitous in m...
We demonstrate that emission from Rhodamine-6G fluorophores adsorbed on silver nanowires experiences...
We show that metal nanowires sustaining collective electron oscillations (surface plasmon polaritons...
Metal nanowires are thought to become key elements in future nanophotonics applications. Here we sho...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
ABSTRACT: Optical antennas interface an object with optical radiation and boost the absorption and e...
We experimentally demonstrate the directional emission of polarized light from single semiconductor ...
Abstract Metal nanowires supporting propagating surface plasmons (SPs) can be used as nanowaveguides...
Optical antennas interface an object with optical radiation and boost the absorption and emission of...
Designing directional optical antennas without compromising the field enhancement requires specially...
cited By 1International audiencePlasmonics is an emerging technology capable of simultaneously trans...
Integrated photonic circuits require small photonic elements. Recent progress in nanowire synthesis ...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
In this paper we discuss several examples of generating directional light emission on a nanoscale as...
Semiconductor nanowires combine the material properties of semiconductors, which are ubiquitous in m...
We demonstrate that emission from Rhodamine-6G fluorophores adsorbed on silver nanowires experiences...
We show that metal nanowires sustaining collective electron oscillations (surface plasmon polaritons...
Metal nanowires are thought to become key elements in future nanophotonics applications. Here we sho...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
ABSTRACT: Optical antennas interface an object with optical radiation and boost the absorption and e...
We experimentally demonstrate the directional emission of polarized light from single semiconductor ...
Abstract Metal nanowires supporting propagating surface plasmons (SPs) can be used as nanowaveguides...
Optical antennas interface an object with optical radiation and boost the absorption and emission of...
Designing directional optical antennas without compromising the field enhancement requires specially...
cited By 1International audiencePlasmonics is an emerging technology capable of simultaneously trans...
Integrated photonic circuits require small photonic elements. Recent progress in nanowire synthesis ...
Plasmons are collective oscillations of free electrons in a metal. At optical frequencies plasmons e...
In this paper we discuss several examples of generating directional light emission on a nanoscale as...
Semiconductor nanowires combine the material properties of semiconductors, which are ubiquitous in m...
We demonstrate that emission from Rhodamine-6G fluorophores adsorbed on silver nanowires experiences...
We show that metal nanowires sustaining collective electron oscillations (surface plasmon polaritons...