Add to ORKGWe characterize bending losses of curved plasmonic nanowire waveguides for radii of curvature ranging from 1 to 12 μm and widths down to 40 nm. We use near-field measurements to separate bending losses from propagation losses. The attenuation due to bending loss is found to be as low as 0.1 μm−1 for a curved waveguide with a width of 70 nm and a radius of curvature of 2 μm. Experimental results are supported by Finite Difference Time Domain simulations. An analytical model developed for dielectric waveguides is used to predict the trend of rising bending losses with decreasing radius of curvature in plasmonic nanowire
We investigated the effects of cross sectional geometry on surface plasmon polariton propagation in ...
We determine the origin of transition loss in bent waveguides and fibres. We show that transition lo...
Semiconductor and metallic nanowires are attractive building blocks for a nanoscale integrated photo...
A novel hybrid plasmonic waveguide consisting of a high-index elliptical nanowire embedded in a low-...
Based on full 3D finite element method simulations, the transmission of a dielectric-loaded surface ...
For integrating and multiplexing of subwavelength plasmonic waveguides with other optical and electr...
The properties of ellipsoidal nanowires are yet to be examined. They have likely applications in sen...
Micro-bend waveguides are an important enabler for the interconnection of photonic components in lar...
We analyse bend loss properties of a band gap-guided periodic structure, and give reasons for the ef...
We demonstrate a simple, direct measurement of propagation losses in single silver nanowires. Using ...
We present a theoretical study of the curvature-induced radiation of surface plasmon polaritons (SPP...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
We report on the characterization of long-range surface plasmon waveguide bends at telecom wavelengt...
International audienceThe design, fabrication, characterization, and modeling of basic building bloc...
Sustained growth of commercially viable applications for integrated photonic technologies requires t...
We investigated the effects of cross sectional geometry on surface plasmon polariton propagation in ...
We determine the origin of transition loss in bent waveguides and fibres. We show that transition lo...
Semiconductor and metallic nanowires are attractive building blocks for a nanoscale integrated photo...
A novel hybrid plasmonic waveguide consisting of a high-index elliptical nanowire embedded in a low-...
Based on full 3D finite element method simulations, the transmission of a dielectric-loaded surface ...
For integrating and multiplexing of subwavelength plasmonic waveguides with other optical and electr...
The properties of ellipsoidal nanowires are yet to be examined. They have likely applications in sen...
Micro-bend waveguides are an important enabler for the interconnection of photonic components in lar...
We analyse bend loss properties of a band gap-guided periodic structure, and give reasons for the ef...
We demonstrate a simple, direct measurement of propagation losses in single silver nanowires. Using ...
We present a theoretical study of the curvature-induced radiation of surface plasmon polaritons (SPP...
Abstract: We present results of transmission meas-urements and mode analysis for metal nanowire wave...
We report on the characterization of long-range surface plasmon waveguide bends at telecom wavelengt...
International audienceThe design, fabrication, characterization, and modeling of basic building bloc...
Sustained growth of commercially viable applications for integrated photonic technologies requires t...
We investigated the effects of cross sectional geometry on surface plasmon polariton propagation in ...
We determine the origin of transition loss in bent waveguides and fibres. We show that transition lo...
Semiconductor and metallic nanowires are attractive building blocks for a nanoscale integrated photo...