ABSTRACT: We report the experimental realization of an optical metamaterial composed of a hexagonal array of coaxial plasmonic metal/insulator/metal waveguides that shows strong polarization-independent optical mode index dispersion in the ultraviolet/blue. The metamaterial is composed of silicon coaxes with a well-defined diameter in the range of 150−168 nm with extremely thin sidewalls (13−15 nm), embedded in a silver film, fabricated using a combination of electron beam lithography, physical vapor deposition, reactive ion etching, and focused ion beam polishing. Using a Mach− Zehnder interferometer the phase advance is measured on several metamaterial samples with different dimensions in the UV/ visible part of the spectrum. For all geom...
The theory surrounding plasmon-polariton wave propagation on infinitely wide thin metal film structu...
Optical metasurfaces are judicously engineered electromagnetic interfaces that can control and manip...
Metasurfaces, two dimensional (2D) metamaterials comprised of subwavelength features, can be used to...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
Optical metamaterials are materials built from sub-wavelength building blocks, and can be designed t...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
Metamaterials are artificially structured composites. They can be used to modulate electromagnetic w...
International audienceWe propose a theoretical study of the optimization of one dimensional metal-di...
The theory surrounding plasmon-polariton wave propagation on infinitely wide thin metal film structu...
Optical metasurfaces are judicously engineered electromagnetic interfaces that can control and manip...
Metasurfaces, two dimensional (2D) metamaterials comprised of subwavelength features, can be used to...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
We report the experimental realization of an optical metamaterial composed of a hexagonal array of c...
Optical metamaterials are materials built from sub-wavelength building blocks, and can be designed t...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
dissertationPlasmonic metasurfaces offer a unique capability to manipulate amplitude, phase and/or p...
We determine the plasmon dispersion relation in coaxial waveguides composed of a circular channel se...
Metamaterials are artificially structured composites. They can be used to modulate electromagnetic w...
International audienceWe propose a theoretical study of the optimization of one dimensional metal-di...
The theory surrounding plasmon-polariton wave propagation on infinitely wide thin metal film structu...
Optical metasurfaces are judicously engineered electromagnetic interfaces that can control and manip...
Metasurfaces, two dimensional (2D) metamaterials comprised of subwavelength features, can be used to...