We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. The structure is infiltrated by a liquid crystal and the tunability is achieved due the reorientation of liquid crystal molecules
We experimentally demonstrate the use of photoalignment materials for liquidcrystal based electrical...
In this work, I describe the theory of the negative electric response exhibited by metals and negati...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
We demonstrate the use of liquid crystal infiltration of fishnet structures for the realization of h...
We study experimentally the nonlinear properties of fishnet metamaterials infiltrated with liquid cr...
In this work we propose two ways of tuning of the optical properties of a fishnet metamaterial infil...
We review our recent studies on photonic metamaterials infiltrated with liquid crystals and show tha...
We analyze numerically the optical response and effective macroscopic parameters of fishnet metamat...
We experimentally demonstrate efficient electrical modulation and switching of the near-IR response ...
We demonstrate active tuning of high-Q dielectric metasurfaces by embedding asymmetric silicon meta-...
We study the optical response of a metamaterial surface created by a lattice of split-ring resonato...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
Here we report a tunable Meta-Liquid-Crystal based on liquid metal droplet, the optical properties o...
We study experimentally the nonlinear properties of fishnet metamaterials infiltrated with nematic l...
We experimentally demonstrate the use of photoalignment materials for liquidcrystal based electrical...
In this work, I describe the theory of the negative electric response exhibited by metals and negati...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
We demonstrate the use of liquid crystal infiltration of fishnet structures for the realization of h...
We study experimentally the nonlinear properties of fishnet metamaterials infiltrated with liquid cr...
In this work we propose two ways of tuning of the optical properties of a fishnet metamaterial infil...
We review our recent studies on photonic metamaterials infiltrated with liquid crystals and show tha...
We analyze numerically the optical response and effective macroscopic parameters of fishnet metamat...
We experimentally demonstrate efficient electrical modulation and switching of the near-IR response ...
We demonstrate active tuning of high-Q dielectric metasurfaces by embedding asymmetric silicon meta-...
We study the optical response of a metamaterial surface created by a lattice of split-ring resonato...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
Here we report a tunable Meta-Liquid-Crystal based on liquid metal droplet, the optical properties o...
We study experimentally the nonlinear properties of fishnet metamaterials infiltrated with nematic l...
We experimentally demonstrate the use of photoalignment materials for liquidcrystal based electrical...
In this work, I describe the theory of the negative electric response exhibited by metals and negati...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
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