We study numerically the formation of photonic band gaps and guided "defect" modes within two dimensional arrays of metallic nanowires. Attenuations as low as 1.7 dB/cm are predicted for silver wires at 1550 nm wavelength. (C) 2007 Optical Society of Americ
Metal nanostructures have received considerable attention for their ability to guide and manipulate ...
Silver nanowires with diameters of a few tens of nanometers have gained a lot interest recently. An ...
International audienceThe finite difference time domain method is employed to study the crystalline ...
We study numerically the formation of photonic band gaps and guided "defect" modes within two dimens...
We numerically investigate the band structure and guided modes within arrays of metallic nanowires. ...
We discuss the characteristics of surface plasmon modes guided on metallic nanowires of circular cro...
Plasmonics is a rapidly developing field concerning light manipulation at the nanoscale with many po...
Metallic nanowire arrays are created by pumping molten metal into the hollow channels of silica glas...
We report the fabrication of triangular lattices of parallel gold and silver nanowires of high optic...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
A kind of surface plasmon waveguide (SPW) formed from metal-dielectric-metal nanowire array is propo...
Physical phenomena (optical, electronic and optoelectronic) occurring in metallic nanostructures off...
Semiconductor and metallic nanowires are attractive building blocks for a nanoscale integrated photo...
The simultaneous realization of nanoscale field localization and low transmission loss remains one o...
Metal nanostructures have received considerable attention for their ability to guide and manipulate ...
Silver nanowires with diameters of a few tens of nanometers have gained a lot interest recently. An ...
International audienceThe finite difference time domain method is employed to study the crystalline ...
We study numerically the formation of photonic band gaps and guided "defect" modes within two dimens...
We numerically investigate the band structure and guided modes within arrays of metallic nanowires. ...
We discuss the characteristics of surface plasmon modes guided on metallic nanowires of circular cro...
Plasmonics is a rapidly developing field concerning light manipulation at the nanoscale with many po...
Metallic nanowire arrays are created by pumping molten metal into the hollow channels of silica glas...
We report the fabrication of triangular lattices of parallel gold and silver nanowires of high optic...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
Thin metallic nanowires are highly promising candidates for plasmonic waveguides in photonic and ele...
A kind of surface plasmon waveguide (SPW) formed from metal-dielectric-metal nanowire array is propo...
Physical phenomena (optical, electronic and optoelectronic) occurring in metallic nanostructures off...
Semiconductor and metallic nanowires are attractive building blocks for a nanoscale integrated photo...
The simultaneous realization of nanoscale field localization and low transmission loss remains one o...
Metal nanostructures have received considerable attention for their ability to guide and manipulate ...
Silver nanowires with diameters of a few tens of nanometers have gained a lot interest recently. An ...
International audienceThe finite difference time domain method is employed to study the crystalline ...
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