We develop a rigorous model to simulate an LCD\u27s contrast ratio (CR) and viewing angle by considering the depolarization effect. To improve CR, an in-cell polarizer is added between LC layer and color filter array. The obtained maximum CR of a multi-domain vertical alignment LCD is boosted to \u3e 20,000:1
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A normally black single cell gap transflective liquid crystal display (LCD) using vertical alignment...
We develop a rigorous model to simulate an LCD\u27s contrast ratio (CR) and viewing angle by conside...
A computer simulation model based on oblique angle Jones matrix and Poincaré sphere is developed for...
A computer simulation model based on oblique-angle Jones matrix and Poincare sphere is developed for...
A wide viewing angle multi-domain vertical-alignment liquid crystal display (VA-LCD) is proposed. Ac...
A wide viewing angle multi-domain vertical-alignment liquid crystal display (VA-LCD) is proposed. Ac...
Using MOUSE-LCD software we analyze, how the parameters of the "guest-host" cell effects such basic ...
We report three major approaches for improving the contrast ratio and viewing angle of a vertical fi...
We report three major approaches for improving the contrast ratio and viewing angle of a vertical fi...
The application of the LCD modeling and optimization system (MOUSE-LCD) for the design and developme...
Light leakage from liquid crystal displays in the dark state is relatively larger and leads to a deg...
We systematically analyze the ambient contrast ratio (ACR) of liquid crystal displays (LCDs) and org...
A single cell gap and wide-view transflective LCD using fringe field switching LC cell and an intern...
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A normally black single cell gap transflective liquid crystal display (LCD) using vertical alignment...
We develop a rigorous model to simulate an LCD\u27s contrast ratio (CR) and viewing angle by conside...
A computer simulation model based on oblique angle Jones matrix and Poincaré sphere is developed for...
A computer simulation model based on oblique-angle Jones matrix and Poincare sphere is developed for...
A wide viewing angle multi-domain vertical-alignment liquid crystal display (VA-LCD) is proposed. Ac...
A wide viewing angle multi-domain vertical-alignment liquid crystal display (VA-LCD) is proposed. Ac...
Using MOUSE-LCD software we analyze, how the parameters of the "guest-host" cell effects such basic ...
We report three major approaches for improving the contrast ratio and viewing angle of a vertical fi...
We report three major approaches for improving the contrast ratio and viewing angle of a vertical fi...
The application of the LCD modeling and optimization system (MOUSE-LCD) for the design and developme...
Light leakage from liquid crystal displays in the dark state is relatively larger and leads to a deg...
We systematically analyze the ambient contrast ratio (ACR) of liquid crystal displays (LCDs) and org...
A single cell gap and wide-view transflective LCD using fringe field switching LC cell and an intern...
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A simple wide-view and broadband circular polarizer comprising of a linear polarizer and two uniaxia...
A normally black single cell gap transflective liquid crystal display (LCD) using vertical alignment...