The High-Field Cured Polymer Networks in Nematic Liquid Crystals
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概要
- 論文の詳細を見る
- 社団法人応用物理学会の論文
- 1996-10-15
著者
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NOSE Toshiaki
Department of Electronics and Information Systems, Akita Prefectural University
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Li Jianlin
Liquid Crystal Institute Kent State University
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Li Jianlin
Liquid Crystal Institute And Department Of Physics Kent State University
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BOS Philip
Liquid Crystal Institute
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Bos P
Kent State Univ. Oh Usa
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Anderson J
Liquid Crystal Institute Kent State University
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Nose Toshiaki
Department Of Electrical And Electronic Engineering Akita University
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ANDERSON James
Liquid Crystal Institute, Kent State University
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HOKE Charles
Liquid Crystal Institute, Kent State University
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Hoke C
Kent State Univ. Oh Usa
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Hoke Charles
Liquid Crystal Institute Kent State University
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Anderson James
Liquid Crystal Institute And Chemical Physics Interdisciplinary Program
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NOSE Toshiaki
Department of Electronics, Akita University
関連論文
- Liquid Crystal Lens With Spherical Electrode
- 3A16 Study of a Novel Liquid Crystal Lens
- Influence of the Polymer Network on the Switching Behaviors in the Polymer Stabilized Ferroelectric Liquid Crystals
- Simple Multimode Stereoscopic Liquid Crystal Display
- Liquid Crystal Display Devices with Slit-Patterned Electrode Structures
- Molecular Orientations and Optical Transmission Properties of Liquid Crystal Cells with Slit-Patterned Electrodes
- Diffraction and Polarization Properties of a Liquid Crystal Grating
- Optical Haar Wavelet Transforms with Liquid Crystal Elements
- Optical Performance of Liquid Crystal Cells with Asymmetric Slit-Patterned Electrodes in Various Applied Field Configurations
- 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
- Polymer Stabilized Liquid Crystal Grating Consisting of Periodic Reverse Twist Domains
- Liquid-Crystal Fresnel Zone Plate Fabricated by Microrubbing
- Polarization-Independent Liquid Crystal Grating Fabricated by Microrubbing Process
- Improvement of Aberration Properties of Liquid Crystal Microlenses using the Stacked Electrode Structure
- Optimization of Device Parameters for Minimizing Spherical Aberration and Astigmatism in Liquid Crystal Microlenses
- Dependence of Optical Properties on the Device and Material Parameters in Liquid Crystal Microlenses
- Enhancement of Numerical Aperture of Liquid Crystal Microlenses Using a Stacked Electrode Structure
- Optical Haar Wavelet for Extracting Edge Features along Arbitrary Directions
- Optical Properties of Anamorphic Liquid Crystal Microlenses and Their Application for Laser Diode Collimation
- Influence of Elastic Constants on the Optical Properties of Liquid Crystal Microlenses
- Liquid-Crystal Blazed grating with Spatially Distributed Four-Level Twisted Nematic Domains
- Liquid-Crystal Reflective Beam Deflector with Microscale Alignment Pattern
- Polarization-Independent Liquid-Crystal Grating with Microscale Alignment Pattern(Electronic Displays)
- Light Scattering Properties in a Homeotropic-Aligned Liquid Crystal Microlens Array
- 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
- A Radial Molecular Orientation Using a Flow-Induced Aligning Method in a Nematic Liquid Crystal Cell
- Methods to Obtain High-Contrast-Ratio Twisted Nematic Liquid Crystal Device at Wavelength of 1.55μm
- Millimeter-Wave Transmission Properties of Nematic Liquid-Crystal Cells with a Grating-Patterned Electrode Structure
- Viewing Angle Performance of a Polarization Interference Filter Based Passive Matrix Display
- Optical Compensation of Liquid Crystal Materials Using Negative Birefringence Compensation Films
- Optical Properties of a Polymer-Stabilized Liquid Crystal Microlens
- Visualization of Molecular Orientation by Using a UV-Curable Liquid Crystal
- Optical Properties of a Polarization Converting Device Using a Nematic Liquid Crystal Cell
- A Liquid Crystal Microlens with Hole-Patterned Electrodes on Both Substrates
- Optical Properties of a Liquid Crystal Microlens with a Symmetric Electrode Structure
- Memory Effects in Nematic Liquid Crystals by a Surface Molecular Reorientation
- Four-Domain Twisted Nematic Liquid Crystal Display Fabricated by Two Alignment Layers with Low and High Pretilt Angles
- Liquid-Crystal Fresnel Zone Plate Fabricated by Microrubbing
- 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
- Light Scattering Effects in a Randomly Arranged Liquid Crystal Microlens Array
- Optical Performance of the π Cell Compensated with a Negative-Birefringence Film and an A-plate
- Novel Liquid Crystal Grating with a Relief Structure by a Simple UV Irradiation Process
- A Double-Layer Polymer/Liquid-Crystal Grating with Polarization Direction-Independent Diffraction Properties
- In-Plane Liquid Crystal Beam Steering Devices with a Beam Separation Structure
- Optical and Electrical Logic Operations by a Liquid Crystal Bistable Optical Device
- Improvement of Optical Properties and Beam Steering Functions in a Liquid Crystal Microlens with an Extra Controlling Electrode by a Planar Structure
- Flip-Flop and Oscillating Behavior Obtained with Serial Connection of Liquid Crystal Bistable Optical Device Pixels
- 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
- Liquid-Crystal Blazed Gratings with Spatially Distributed Pretilt Angle
- Rotational Behavior of Stripe Domains Appearing in Hybrid Aligned Chiral Nematic Liquid Crystal Cells
- 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
- Fundamental Properties of Novel Design Microstrip Line Type of Liquid Crystal Phase Shifter in Microwave Region
- Improvement of Aberration Properties of Liquid Crystal Microlenses using the Stacked Electrode Structure
- 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
- Polymer Stabilized Liquid Crystal Grating Consisting of Periodic Reverse Twist Domains
- Dependence of Optical Properties on the Device and Material Parameters in Liquid Crystal Microlenses
- 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
- Oblique Extraction of Polarized Light from Light-Emitting Liquid Crystal Cells Doped with a Fluorescent Dye
- In-Plane Liquid Crystal Beam Steering Devices with a Beam Separation Structure
- Liquid-Crystal Blazed grating with Spatially Distributed Four-Level Twisted Nematic Domains