| A Four-Domain Twisted-Nematic Display Stabilized by Polymer Networks | [PDF] | [DjVu] |
| NMR in Spinning Samples of Biaxial Liquid Crystals | [PDF] | [DjVu] |
| NMR Measurement of Biaxial Molecular Order in the Smectic C Phase | [PDF] | [DjVu] |
| A Bistable LCD Using Polymer Stabilization | [PDF] | [DjVu] |
| A Full-Color Field-Sequential Color Display | [PDF] | [DjVu] |
| A Low-Threshold-Voltage Polymer Network TN Device | [PDF] | [DjVu] |
| A Method for Director Alignment of SmC Devices | [PDF] | [DjVu] |
| An Electro-Optically Controlled Liquid Crystal Diffraction Grating | [PDF] | [DjVu] |
| An Enhanced Chevron SSFLC Display | [PDF] | [DjVu] |
| An Optically 'Self-Compensating' Electro-Optical Effect with Wide Angle of View | [PDF] | [DjVu] |
| An Optically Active Diffractive Device for a High-Efficiency Light Valve | [PDF] | [DjVu] |
| An Optically Diffractive Device for a High-Efficiency Light Valve (SID Digest) | [PDF] | [DjVu] |
| An Ultra Wide Viewing Angle STN LCD with a Negative Birefringence Compensation Film | [PDF] | [DjVu] |
| Application of a Negative Birefringence Film to Various LCD Modes | [PDF] | [DjVu] |
| Characterization of the Helical-Axis Distribution in Reflective Cholesteric LCDs | [PDF] | [DjVu] |
| Contrast and Color Uniformity Optimization of an LCD Pi Cell Pixel | [PDF] | [DjVu] |
| Controlled Tilted Homeotropic Alignment of Liquid Crystals for Display Applications | [PDF] | [DjVu] |
| Direct NMR Observation of Rotational Freeze-Out in the Smectic C Phase | [PDF] | [DjVu] |
| Dynamic Drive for Bistable Reflective Cholesteric Displays: A Rapid Addressing Scheme | [PDF] | [DjVu] |
| Effect of Low Polymer Content in a Liquid-Crystal Microlens | [PDF] | [DjVu] |
| Effect of Material Parameters on Hysteresis of Bistable STN Displays | [PDF] | [DjVu] |
| Field-Sequential Stereoscopic Viewing Systems Using Passive Glasses | [PDF] | [DjVu] |
| Four-Domain TN-LCD Fabricated by Reverse Rubbing or Double Evaporation | [PDF] | [DjVu] |
| Four-Domain TN-LCDs Using Low and High Pretilt Alignment Layers | [PDF] | [DjVu] |
| Four-Domain Twisted Nematic Liquid Crystal Display Fabricated by Reverse Rubbed Polyimide Process | [PDF] | [DjVu] |
| Four-Domain Twisted Nematic Liquid Crystal Display Fabricated by Two Alignment Layers with Low and High Pretilt Angles | [PDF] | [DjVu] |
| High-Efficiency Light Valve Projectors and High Efficiency Laser Light Sources | [PDF] | [DjVu] |
| High Field Cured Polymer Networks in Nematic Liquid Crystals | [PDF] | [DjVu] |
| High Speed Addressing of a 0-360 Degree Bistable Twisted Nematic Liquid Crystal Display | [PDF] | [DjVu] |
| Investigation of Domain Instability in the Four Domain Twisted Nematic Configurations | [PDF] | [DjVu] |
| Investigation of the Mechanism of the Surface-Induced Alignment of Liquid Crystals by Linearly Polymerized Photopolymers | [PDF] | [DjVu] |
| Liquid Crystals: As Observed By NMR | [PDF] | [DjVu] |
| Mechanism of Liquid-Crystal Alignment by Polyimide Exposure to Linearly Polarized UV Light | [PDF] | [DjVu] |
| Model of Liquid Crystal Alignment by Exposure to Linearly Polarized Ultraviolet Light | [PDF] | [DjVu] |
| Molecular Order Versus Conformation Changes in the Liquid-Crystal Phases | [PDF] | [DjVu] |
| Molecular Orientational Order and NMR in the Uniaxial and Biaxial Phases | [PDF] | [DjVu] |
| Nearly Homeotropically Aligned Four-Domain Liquid Crystal Display with Wide Viewing Angle | [PDF] | [DjVu] |
| Optical Simulation of Electro-Optical Performance of Low Delta-nd Multi-Domain TN Displays | [PDF] | [DjVu] |
| Optimization of Luminance for Optical Mode Interference (OMI) Displays | [PDF] | [DjVu] |
| Passive Optical Phase Retarders for Liquid Crystal Displays | [PDF] | [DjVu] |
| Polymer Stabilized 'Up-Down' Bistable Devices | [PDF] | [DjVu] |
| Polymer Stabilized SBE Devices | [PDF] | [DjVu] |
| Polymer Stabilized STN Devices | [PDF] | [DjVu] |
| Polymer Walls in Higher-Polymer-Content Bistable Reflective Cholesteric Displays | [PDF] | [DjVu] |
| Radially and Azimutally Oriented Liquid Crystal Alignment Patters Fabricated by Linearly Polarized Ultraviolet Exposure Process | [PDF] | [DjVu] |
| Simple Four-Domain Twisted Nematic Liquid Crystal Display | [PDF] | [DjVu] |
| Studies of the Bistability of Highly Twisted Nematics | [PDF] | [DjVu] |
| Super-Twisted-Nematic Liquid Crystal Display with Multi-Domain Structures | [PDF] | [DjVu] |
| Switchable Diffractive Cholesteric Gratings | [PDF] | [DjVu] |
| The Optimization of Twist Angles for OMI Displays Using Polymer Stabilization | [PDF] | [DjVu] |
| The Pi Cell: A Fast Liquid-Crystal Optical-Switching Device | [PDF] | [DjVu] |
| The Traveling-Wave Compensator: A New Method for High-Contrast Video-Rate Passive-Matrix Displays | [PDF] | [DjVu] |
| Low-Cost Dynamic Drive For BCT LCDs | [PDF] | [DjVu] |
| Viewing Angle and Color-Uniformity Optimization of the Pi Cell | [PDF] | [DjVu] |