Intrinsic Half-V-Mode Ferroelectric Liquid Crystal Displays Fabricated Using Hybrid Alignment Exhibiting High Contrast Ratio and High Reliability without DC Voltage Application to Remove Layer Degeneracy and Their Electro-Optic Characteristics
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概要
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We developed a new polyimide, RN-1411, for the alignment of ferroelectric liquid crystal display (FLCD) and used it to fabricate an intrinsic FLCD showing half V-shaped switching called intrinsic H-V-mode FLCD. In this research, we particularly adopted a hybrid alignment method, typically the combination of a weak anchoring treatment for one substrate and a strong anchoring treatment for another substrate, that was actually performed by the combination of strong rubbing and weak rubbing, and the combination of photoalignment and rubbing using the same polyimide or that of rubbing and ion-beam alignment, where the same polyimide film or two different polyimide materials were used. It was shown that an intrinsic H-V-mode FLCD fabricated using this method has a defect-free molecular conformation that is realized without applying a DC voltage to remove degeneracy in the layer structure, which makes it possible to realize a high contrast ratio of $300:1$ and high temperature reliability for a temperature cycling test.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2003-05-15
著者
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Xu Jun
Liquid Crystal Institute And Graduate School Of Engineering Science Tokyo University Of Science
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Kobayashi Shunsuke
Liquid Crystal Institute And Graduate School Of Engineering Science Tokyo University Of Science
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Murakami Yuji
Liquid Crystal Institute And The Graduate School Of Engineering Science Tokyo University Of Science
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Furuta Hirokazu
Liquid Crystal Institute And Graduate School Of Engineering Science Tokyo University Of Science
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Endoh Hideyuki
Nissan Chem. Ind. Co., 722-1 Tsuboi-cho, Funabashi, Chiba 224-8506, Japan
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Fukuro Hiroyoshi
Nissan Chem. Ind. Co., 722-1 Tsuboi-cho, Funabashi, Chiba 224-8506, Japan
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Kobayashi Shunsuke
Liquid Crystal Institute and the Graduate School of Engineering Science, Tokyo University of Science, Yamaguchi, 1-1-1 Daigaku-dori, Onoda, Yamaguchi 756-0884, Japan
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