Dual Domainlike, vertically Aligned Nematic Liquid Crystal Display Driven by In-Plane Field (Special Issue on Electronic Displays)
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概要
- 論文の詳細を見る
A homeotropic liquid crystal display utilizing a liquid crystal with positive dielectric anisotropy, 13.3" XGA TFT-LCD, has been fabricated. The rubbing-free device, appears black in the absence of electric field. when an electric field generated by interdigital electrodes is applied, a bend deformation of molecular director to the direction of the field occurs and thus the cell transmits light, showing brightness uniformity in all directions owing to the dual domainlike director configuration. With an addition of negative-birefringent film, this device shows excellent viewing angle characteristics.
- 社団法人電子情報通信学会の論文
- 1998-11-25
著者
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PARK In
TFT Process Development Department, LCD SBU, Hyundai Electronics Industries
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KIM Hyang
TFT Process Development Department, LCD SBU, Hyundai Electronics Industries
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LEE Seung
TFT Process Development Department, LCD SBU, Hyundai Electronics Industries
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Kim H
School Of Advanced Materials Engineering Chonbuk National University
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Park I
Hyundai Electronics Ind. Kyungki‐do Kor
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Park In
Tft Process Development Department Hyundai Electronics Industries Co. Ltd.
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Kim Hyang
Tft Process Development Department Hyundai Electronics Industries Co. Ltd.
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Lee S
Solid Technol. Inc. Seoul Kor
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LEE Won
TFT Process Development Department, Hyundai Electronics Industries Co., Ltd.
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Lee Won
Tft Process Development Department Hyundai Electronics Industries Co. Ltd.
関連論文
- Wide-Viewing-Angle Hybrid Aligned Nematic Liquid Crystal Cell Controlled by Complex Electric Field
- Dual Domain Effects on a Homogeneously Aligned Nematic Liquid Crystal Cell Driven by a Fringe-Field
- Electrooptic Characteristics of the Fringe-Field Switching Device with Electrode on Top Substrate(Optical Properties of Condensed Matter)
- Reflective Display Associated With In-Plane Rotation of Nematic Liquid Crystal : Optics and quantum Electronics
- Chiral-Doped Optically Compensated Bend Nematic Liquid Crystal Cell with Continuous Deformation from Twist to Twisted Bend State : Structure and Mechanical and Thermal Properties of Condensed Matter
- Novel Nematic Liquid Crystal Device Associated with Hybrid Alignment Controlled by Fringe Field : Optics and Quantum Electronics
- Electro-Optic Characteristic of Fringe-Field Switching Mode Depending on Rubbing Direction
- Analysis of Optimal Phase Retardation of a Fringe Field-Driven Homogeneously Aligned Nematic Liquid Crystal Cell
- O-10 Analysis of Dynamic Behavior of the Positive Liquid Crystal in Fringe-Field Swiching (FFS) Device
- Reflective Liquid Crystal Display Using a Non-Twist Half-Wave Cell
- Novel Structure for Reduced Operating Voltage in Fringe-Field Switching Mode with Negative Liquid Crystal
- The Electro optic Characteristics of Multi-Cell Gap Fringe-Field Switching Mode
- Analysis of Improved Transmittance in Fringe-Field Switching Mode Using Positive Liquid Crystal Incorporated with Chiral Dopant
- Carbon Nanotube-Based Field-Emission Displays for Large-Area and Full-Color Applications
- Carbon-Nanotubes for Full-Color Field-Emission Displays
- Dual Domainlike, vertically Aligned Nematic Liquid Crystal Display Driven by In-Plane Field (Special Issue on Electronic Displays)
- A Novel Fringe Field Switching Mode with 3-partition Pixel Slit