Add to ORKGA figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characterize and compare the electro-optic performance of polymer-stabilized blue phase liquid crystals (BPLCs). Increasing the dielectric anisotropy of LC host enhances Kerr constant and lowers the operation voltage, but its associated high viscosity dramatically increases the response time. As a result, the FoM may not be necessarily higher. For a given BPLC device, an optimal temperature exists where FoM reaches maximum. The proposed FoM provides useful guidelines for optimizing BPLCs for display and photonic applications. © 2012 IEEE
Polymer-stabilised blue phase liquid crystal displays (PS-BPLCD) based on Kerr effect have become an...
Abstract—Effect of polymer concentration and composition on the electro-optic properties of blue pha...
Polymer-stabilized optically isotropic liquid crystals, including blue phases, are emerging as a str...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Polymer-stabilized blue-phase liquid crystals (PS-BPLCs) possess several attractive features, such a...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Effect of polymer concentration and composition on the electro-optic properties of blue phase liquid...
The dynamic response of a polymer-stabilized blue phase liquid crystal (BPLC) is comprised of two di...
Polymer-stabilized blue-phase liquid crystal (BPLC) comprising fluorinated compounds with high resis...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer-stabilized blue-phase liquid crystal (BPLC) has become an increasingly important technology ...
A polymer-stabilized blue phase liquid crystal (BPLC) composite with a large Kerr constant (K simila...
We report a polymer-stabilized blue phase liquid crystal (BPLC) whose Kerr constant is about 2.2x la...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer-stabilised blue phase liquid crystal displays (PS-BPLCD) based on Kerr effect have become an...
Abstract—Effect of polymer concentration and composition on the electro-optic properties of blue pha...
Polymer-stabilized optically isotropic liquid crystals, including blue phases, are emerging as a str...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Polymer-stabilized blue-phase liquid crystals (PS-BPLCs) possess several attractive features, such a...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Effect of polymer concentration and composition on the electro-optic properties of blue phase liquid...
The dynamic response of a polymer-stabilized blue phase liquid crystal (BPLC) is comprised of two di...
Polymer-stabilized blue-phase liquid crystal (BPLC) comprising fluorinated compounds with high resis...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer-stabilized blue-phase liquid crystal (BPLC) has become an increasingly important technology ...
A polymer-stabilized blue phase liquid crystal (BPLC) composite with a large Kerr constant (K simila...
We report a polymer-stabilized blue phase liquid crystal (BPLC) whose Kerr constant is about 2.2x la...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer-stabilised blue phase liquid crystal displays (PS-BPLCD) based on Kerr effect have become an...
Abstract—Effect of polymer concentration and composition on the electro-optic properties of blue pha...
Polymer-stabilized optically isotropic liquid crystals, including blue phases, are emerging as a str...