Add to ORKGWe experimentally demonstrate efficient electrical modulation and switching of the near-IR response of plasmonic metamaterials loaded with liquid crystals. That has been achieved by controlling micro-scale volume and (for the first time) nano-scale in-plane ordering of liquid crystals in the resulting hybrid metamaterial systems
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. T...
Practical guest–host devices in which dichroic dye molecules follow electrical switching of a liquid...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
Achieving an efficient spectral tuning in liquid-crystal (LC)-loaded active photonic metamaterials h...
One of the important steps towards practical application of the metamaterials is the implementation ...
Metamaterials in photonics represent a large class of nano-structured artificial media with optical ...
We experimentally demonstrate efficient electro-optical control in an active nano-structured plasmon...
We study the optical response of a metamaterial surface created by a lattice of split-ring resonato...
We report on the design, fabrication, and analysis of a tunable device combining nanoparticle arrays...
We demonstrate high-contrast electro-optical modulator based on a hybrid liquid-crystal cell incorpo...
We demonstrate a family of compact and efficient IR and THz electro-optical modulators based on acti...
Inspired by the anisotropic molecular shape and tunable alignment of liquid crystals (LCs), investig...
We demonstrate electrical tuning of the spectral response of a Mie-resonant dielectric metasurface c...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. T...
Practical guest–host devices in which dichroic dye molecules follow electrical switching of a liquid...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
Achieving an efficient spectral tuning in liquid-crystal (LC)-loaded active photonic metamaterials h...
One of the important steps towards practical application of the metamaterials is the implementation ...
Metamaterials in photonics represent a large class of nano-structured artificial media with optical ...
We experimentally demonstrate efficient electro-optical control in an active nano-structured plasmon...
We study the optical response of a metamaterial surface created by a lattice of split-ring resonato...
We report on the design, fabrication, and analysis of a tunable device combining nanoparticle arrays...
We demonstrate high-contrast electro-optical modulator based on a hybrid liquid-crystal cell incorpo...
We demonstrate a family of compact and efficient IR and THz electro-optical modulators based on acti...
Inspired by the anisotropic molecular shape and tunable alignment of liquid crystals (LCs), investig...
We demonstrate electrical tuning of the spectral response of a Mie-resonant dielectric metasurface c...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. T...
Practical guest–host devices in which dichroic dye molecules follow electrical switching of a liquid...