Electro-optical Performance of a Self-Compensating Vertically-Aligned Liquid Crystal Display Mode
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概要
- 論文の詳細を見る
Very recently, a novel homeotropic nematic liquid crystal display (LCD) with excellent grayscale performance has been introduced. This rub-free mode adopts the homeotropic alignment in the off-state and switching is controlled by an in-plane field. It has electrically-induced dual domain-like director configuration. In this work, we simulate the electro-optical behavior of this device to optimize its performance. We investigate the dependence of electro-optical performance on cell thickness and electrode gap distance. The angular dependence is also studied, which shows the effect of self-compensation. The viewing angle characteristics are investigated in terms of transmission, contrast, gray scale, and chromaticity. We find from modeling that the director configuration above the electrodes is well behaved and masking of the electrodes is unnecessary. In fact, this homeotropic mode has better performance if the electrodes are unmasked.
- 社団法人応用物理学会の論文
- 1999-05-15
著者
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Kelly Jack
Liquid Crystal Institute And Chemical Physics Interdisciplinary Program Kent State University
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Liu Weimin
Liquid Crystal Institute Kent State University
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CHIN J.
Samsung Electronics, AMLCD Division, LCD R&D Team Kiheung
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Chin J.
Samsung Electronics Amlcd Division Lcd R&d Team Kiheung
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- Electro-optical Performance of a Self-Compensating Vertically-Aligned Liquid Crystal Display Mode