A Method of Generating Full Color in a Liquid Crystal Display Using Birefringent Filters
スポンサーリンク
概要
- 論文の詳細を見る
Color generation in a typical liquid crystal device (LCD) is usually done via an array of absorptive color filters placed over the LC subpixels. These filters offer at best 33% transmission resulting in dark displays and the need for high intensity backlights. In this paper we clearly explain a new method of color generation based on a polarization interference filter (PIF) scheme called the Solc filter. The design offers high throughput and chromaticity due to its non-absorptive nature. The design is based on work done by ColorLink Inc. and is extended to show possible use in a display device.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2001-05-15
著者
-
BOS Philip
Liquid Crystal Institute
-
Saeed Salman
Liquid Crystal Institute And Chemical Physics Interdisciplinary Program Kent State University
-
Saeed Salman
Liquid Crystal Institute and Chemical Physics Interdisciplinary Program, Kent State University, Kent, Ohio 44242, U.S.A.
-
Li Zili
Motorola Advanced Technology Center, Motorola Labs, Schaumburg, IL 60196, U.S.A.
-
Bos Philip
Liquid Crystal Institute and Chemical Physics Interdisciplinary Program, Kent State University, Kent, Ohio 44242, U.S.A.
関連論文
- Influence of the Polymer Network on the Switching Behaviors in the Polymer Stabilized Ferroelectric Liquid Crystals
- Simple Multimode Stereoscopic Liquid Crystal Display
- Finite-Difference Time-Domain Optical Calculations of Polymer-Liquid Crystal Composite Electrodiffractive Device
- The High-Field Cured Polymer Networks in Nematic Liquid Crystals
- Studies of the Bistability of Highly Twisted Nematics
- Super-Twisted-Nematic Liquid Crystal Displays with Multi-Domain Structures
- Poincare Sphere Analysis of Reflective Liquid Crystal Device
- Long Term Bistable Twisted Nematic Liquid Crystal Display and Its Computer Simulations
- Nearly Homeotropically Aligned Four-Domain Liquid Crystal Display with Wide Viewing Angle
- Controlled Tilted Homeotropic Alignment of Liquid Crystals for Display Applications
- Methods to Obtain High-Contrast-Ratio Twisted Nematic Liquid Crystal Device at Wavelength of 1.55μm
- Viewing Angle Performance of a Polarization Interference Filter Based Passive Matrix Display
- Optical Compensation of Liquid Crystal Materials Using Negative Birefringence Compensation Films
- Four-Domain Twisted Nematic Liquid Crystal Display Fabricated by Two Alignment Layers with Low and High Pretilt Angles
- Methods and Concerns of Compensating In-Plane Switching Liquid Crystal Displays
- Multidimensional Director Modeling Using the Q Tensor Representation in a Liquid Crystal Cell and Its Application to the π Cell with Patterned Electrodes
- Optical Performance of the π Cell Compensated with a Negative-Birefringence Film and an A-plate
- In-Plane Liquid Crystal Beam Steering Devices with a Beam Separation Structure
- Comparison of Analytical Calculations to Finite-Difference Time-Domain Simulations of One-Dimensional Spatially Varying Anisotropic Liquid Crystal Structures
- High Speed Addressing of a 0°-360° Bistable Twisted Nematic Liquid Crystal Display
- Comparison and Analysis of Off-Axis Color Shift Properties of Compensated Liquid Crystal Devices
- Optimization of the White State Director Configuration for Perfectly Compensated Pi-cell Devices
- Uniform Vertical Alignment of Liquid Crystal That Has a Large Negative Dielectric Anisotropy
- Characterization of Ionic Impurities Adsorbed onto a 5° SiOx Alignment Film
- Poincare Sphere Analysis of Reflective Liquid Crystal Device
- Enhancement of the Direct Symmetric Splay to Bend Transition in Liquid Crystal Cell
- Finite-Difference Time-Domain Optical Calculations of Polymer-Liquid Crystal Composite Electrodiffractive Device
- A Method of Generating Full Color in a Liquid Crystal Display Using Birefringent Filters
- Methods to Obtain High-Contrast-Ratio Twisted Nematic Liquid Crystal Device at Wavelength of 1.55 μm
- Defect-Free Bistable C1 Surface Stabilized Ferroelectric Liquid Crystal Display
- Compensating a Twisted Nematic Liquid Crystal Display with Matched Wavelength Dispersion Retarders
- Conditions and Limitations of Perfect Phase Compensation in Liquid Crystal Devices
- In-Plane Liquid Crystal Beam Steering Devices with a Beam Separation Structure