A metasurface made of a collection of nanoresonators characterized by an electric dipole and a magnetic dipole was studied in the regime where the wavelength is large with respect to the size of the resonators. An effective description in terms of an impedance operator was derived
We review the basic physics and applications of a special class of planar metamaterials, often calle...
Metasurfaces are revolutionizing the way we can control and manipulate light. Unprecedented function...
Metasurfaces are sub-wavelength scale (lambda<1/4), two dimensional (2D) periodic structures bein...
In this contribution, we review some of our recent efforts in the investigation of unusual propertie...
Metasurfaces are thin metamaterial layers characterized by unusual reflection properties of plane wa...
We develop a simple and reliable analytical model that allows describing the electromagnetic respons...
International audienceWe compute the reflectance properties of a metasurface that consists of a doub...
In this contribution, we investigate the effect of an infinitely-extended reactive metasurface on th...
In this paper we present a macroscopic model of a metasurface-optically dense grids of resonant scat...
Metasurfaces composed of cylindrical dielectric resonators, responding either in optical or microwav...
In the first part of the dissertation we provide electrical circuit descriptions for bulk plasmons, ...
This thesis summarises my PhD research towards applying nano-scale dielectric resonators (DRs) to op...
This chapter reports design and analysis methods for planar antennas based on modulated metasurfaces...
Based on an analytic approach, we present a theoretical review on the absorption, scattering, and ex...
Abstract—In this paper, accurate analytical expressions for the impedance of vertical electric and m...
We review the basic physics and applications of a special class of planar metamaterials, often calle...
Metasurfaces are revolutionizing the way we can control and manipulate light. Unprecedented function...
Metasurfaces are sub-wavelength scale (lambda<1/4), two dimensional (2D) periodic structures bein...
In this contribution, we review some of our recent efforts in the investigation of unusual propertie...
Metasurfaces are thin metamaterial layers characterized by unusual reflection properties of plane wa...
We develop a simple and reliable analytical model that allows describing the electromagnetic respons...
International audienceWe compute the reflectance properties of a metasurface that consists of a doub...
In this contribution, we investigate the effect of an infinitely-extended reactive metasurface on th...
In this paper we present a macroscopic model of a metasurface-optically dense grids of resonant scat...
Metasurfaces composed of cylindrical dielectric resonators, responding either in optical or microwav...
In the first part of the dissertation we provide electrical circuit descriptions for bulk plasmons, ...
This thesis summarises my PhD research towards applying nano-scale dielectric resonators (DRs) to op...
This chapter reports design and analysis methods for planar antennas based on modulated metasurfaces...
Based on an analytic approach, we present a theoretical review on the absorption, scattering, and ex...
Abstract—In this paper, accurate analytical expressions for the impedance of vertical electric and m...
We review the basic physics and applications of a special class of planar metamaterials, often calle...
Metasurfaces are revolutionizing the way we can control and manipulate light. Unprecedented function...
Metasurfaces are sub-wavelength scale (lambda<1/4), two dimensional (2D) periodic structures bein...
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