Add to ORKGHere we report a tunable Meta-Liquid-Crystal based on liquid metal droplet, the optical properties of which is tuned by controlled electrowetting effects. The Meta-LiquidCrystal consists of 80 × 80 micro droplets, which are formed and self-assembled by lotus effect on silicon substrate with micro holes array. In experiment, it measures a 0.01-THz frequency shift of the dipole resonance spectrum induced by changing of the droplets shape via electrowetting effect. The Meta-Liquid-Crystal is flexible in tuning and easy in fabrication, which has potential application on tunable filters, controllable beam steering and flat lens.Accepted versio
Achieving an efficient spectral tuning in liquid-crystal (LC)-loaded active photonic metamaterials h...
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We report on the design, fabrication, and analysis of a tunable device combining nanoparticle arrays...
Here we report a tunable Meta-Liquid-Crystal based on liquid metal droplet, the optical properties o...
of a work that has been peer reviewed and accepted for publication in Proceedings of the 5th Interna...
Here we report a tunable THz filter based on random access metamaterial with liquid metal droplet, w...
Using inhomogeneous sized liquid crystal (LC) droplets for lens and prisms. For forming a positive l...
We introduce tunable optofluidic microlasers based on optically stretched or thermally modified, dye...
We review our recent studies on photonic metamaterials infiltrated with liquid crystals and show tha...
We propose and demonstrate Meta Liquid Crystals (MLCs), a novel form of tunable 3D metamaterials. ML...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
Inspired by the anisotropic molecular shape and tunable alignment of liquid crystals (LCs), investig...
We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. T...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
We created a system for concurrent optical trapping, laser excitation and spectroscopy of liquid cry...
Achieving an efficient spectral tuning in liquid-crystal (LC)-loaded active photonic metamaterials h...
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We report on the design, fabrication, and analysis of a tunable device combining nanoparticle arrays...
Here we report a tunable Meta-Liquid-Crystal based on liquid metal droplet, the optical properties o...
of a work that has been peer reviewed and accepted for publication in Proceedings of the 5th Interna...
Here we report a tunable THz filter based on random access metamaterial with liquid metal droplet, w...
Using inhomogeneous sized liquid crystal (LC) droplets for lens and prisms. For forming a positive l...
We introduce tunable optofluidic microlasers based on optically stretched or thermally modified, dye...
We review our recent studies on photonic metamaterials infiltrated with liquid crystals and show tha...
We propose and demonstrate Meta Liquid Crystals (MLCs), a novel form of tunable 3D metamaterials. ML...
One of the efficient approaches to create tunable metamaterials is to infiltrate them with nematic l...
Inspired by the anisotropic molecular shape and tunable alignment of liquid crystals (LCs), investig...
We demonstrate the tunability of a left-handed fishnet metamaterial at near infra-red frequencies. T...
Metamaterials are artificially structured electromagnetic media that are designed to manipulate ligh...
We created a system for concurrent optical trapping, laser excitation and spectroscopy of liquid cry...
Achieving an efficient spectral tuning in liquid-crystal (LC)-loaded active photonic metamaterials h...
We propose electrically tunable hybrid metamaterial consisting of special wire grid immersed into ne...
We report on the design, fabrication, and analysis of a tunable device combining nanoparticle arrays...