Reflective Display Associated with In-Plane Rotation of Nematic Liquid Crystal

We have fabricated a novel reflective nematic liquid-crystal cell driven by a fringe field. In the absence of an electric field, the liquid-crystal molecule is homogeneously aligned and when a fringe field induced by interdigital electrodes is applied, liquid-crystal molecules rotate in plane in the...

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Veröffentlicht in:	Japanese Journal of Applied Physics 2001-09, Vol.40 (9R), p.5334
Hauptverfasser:	Lee, Seung Hee, Hong, Seung Ho, Kim, Hyang Yul, Seo, Dae-Shik, Lee, Gi-Dong, Yoon, Tae-Hoon
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creator	Lee, Seung Hee Hong, Seung Ho Kim, Hyang Yul Seo, Dae-Shik Lee, Gi-Dong Yoon, Tae-Hoon
description	We have fabricated a novel reflective nematic liquid-crystal cell driven by a fringe field. In the absence of an electric field, the liquid-crystal molecule is homogeneously aligned and when a fringe field induced by interdigital electrodes is applied, liquid-crystal molecules rotate in plane in the entire whole area. A conventional in-plane switching (IPS) cell was impossible for application to a reflective system due to its low aperture ratio. However, a newly designed fringe-field switching (FFS) cell is possible due to its high transmittance. Furthermore it exhibits a wide viewing angle intrinsically owing to the in-plane rotation of the liquid-crystal director. Several reflective systems with either two polarizers or one polarizer with a quarter-wave retardation film are possible. In this study, we investigate the switching principle of each system and compare their electrooptic characteristics by simulation and experiment.
doi_str_mv	10.1143/JJAP.40.5334
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In the absence of an electric field, the liquid-crystal molecule is homogeneously aligned and when a fringe field induced by interdigital electrodes is applied, liquid-crystal molecules rotate in plane in the entire whole area. A conventional in-plane switching (IPS) cell was impossible for application to a reflective system due to its low aperture ratio. However, a newly designed fringe-field switching (FFS) cell is possible due to its high transmittance. Furthermore it exhibits a wide viewing angle intrinsically owing to the in-plane rotation of the liquid-crystal director. Several reflective systems with either two polarizers or one polarizer with a quarter-wave retardation film are possible. 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title	Reflective Display Associated with In-Plane Rotation of Nematic Liquid Crystal
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