Add to ORKGApplication of a liquid crystal over a UV written planar silica waveguide provides the first electrically tunable, first order reflective Bragg grating using liquid crystals. 25GHz tunability is achieved with a 25 Volt applied field
Novel liquid crystal-based integrated optical devices with >140GHz electrical tuning are presente...
We report on the fabrication and characterization of a tunable filtering effect, observed in a waveg...
We design a distributed feedback guided-wave device in liquid crystals, utilizing a simple geometry ...
We present the first experimental demonstration of an electrically tunable, first order Bragg gratin...
We report on the experimental demonstration of electrically tunable Bragg grating using liquid cryst...
We demonstrate 114GHz electrically tunable liquid crystal Bragg gratings using 170Vpp voltage. The d...
Tunability of a planar waveguide Bragg filter is achieved using a nematic liquid crystal overclad. E...
Electrically tunable fibre Bragg grating using liquid crystal cladding is presented. The fiber with ...
Liquid crystal-based integrated optical devices offer the potential for high speed and dynamically t...
A distributed feedback guided-wave device is proposed and analyzed numerically in liquid crystals wi...
Direct-UV-written liquid crystal tunable planar Bragg Gratings exhibit complex wavelength tuning wit...
We demonstrate liquid crystal-based integrated optical devices with >140GHz electrical tuning for...
We propose and numerically investigate a versatile and easy-to-realize configuration for a guided-wa...
Liquid crystals (LC) are increasingly finding uses in fields outside of display optics. Their strong...
Liquid crystal tunable planar Bragg Gratings produced by Direct UV Writing are capable of wavelength...
Novel liquid crystal-based integrated optical devices with >140GHz electrical tuning are presente...
We report on the fabrication and characterization of a tunable filtering effect, observed in a waveg...
We design a distributed feedback guided-wave device in liquid crystals, utilizing a simple geometry ...
We present the first experimental demonstration of an electrically tunable, first order Bragg gratin...
We report on the experimental demonstration of electrically tunable Bragg grating using liquid cryst...
We demonstrate 114GHz electrically tunable liquid crystal Bragg gratings using 170Vpp voltage. The d...
Tunability of a planar waveguide Bragg filter is achieved using a nematic liquid crystal overclad. E...
Electrically tunable fibre Bragg grating using liquid crystal cladding is presented. The fiber with ...
Liquid crystal-based integrated optical devices offer the potential for high speed and dynamically t...
A distributed feedback guided-wave device is proposed and analyzed numerically in liquid crystals wi...
Direct-UV-written liquid crystal tunable planar Bragg Gratings exhibit complex wavelength tuning wit...
We demonstrate liquid crystal-based integrated optical devices with >140GHz electrical tuning for...
We propose and numerically investigate a versatile and easy-to-realize configuration for a guided-wa...
Liquid crystals (LC) are increasingly finding uses in fields outside of display optics. Their strong...
Liquid crystal tunable planar Bragg Gratings produced by Direct UV Writing are capable of wavelength...
Novel liquid crystal-based integrated optical devices with >140GHz electrical tuning are presente...
We report on the fabrication and characterization of a tunable filtering effect, observed in a waveg...
We design a distributed feedback guided-wave device in liquid crystals, utilizing a simple geometry ...