Sub 100 Nanosecond Pretilted Planar-to-Homeotropic Reorientation of Nematic Liquid Crystals under High Electric Field
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概要
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The pretilted planar-to-homeotropic reorientation transition of nematic liquid crystals with positive dielectric anisotropy is achieved with a record fast risetime, as fast as 40 ns, by employing a customized electro-optic cell with small area and cell gap and with metal-coated electrodes and by applying electric fields up to several hundred volts/micron. The risetime dependence on the applied electric field is compared to a uniform director model which ignores surface and flow effects, based on Leslie-Ericksen continuum theory.
- 1998-05-15
著者
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Takanashi Hidehiko
Research Center Sony Corporation
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MACLENNAN Joseph
Department of Physics, University of Colorado
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Clark Noel
Department Of Physics Condensed Matter Laboratory Center For Oploelectronic Computing Systems Univer
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Clark Noel
Department of Physics, University of Colorado, Boulder, CO 80309, USA
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Takanashi Hidehiko
Research Center, Sony Corporation, 174 Fujitsuka-cho, Hodogaya-ku, Yokohama 240, Japan
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Maclennan Joseph
Department of Physics, University of Colorado, Boulder, CO 80309, USA
関連論文
- Sub 100 Nanosecond Pretilted Planar-to-Homeotropic Reorientation of Nematic Liquid Crystals under High Electric Field
- Flow Coupled Switching Equations for Surface-Stabilized Ferroelectric Liquid Crystal Cells
- Optical Symmetry of Ferroelectric Liquid Crystal Cells
- 研究室紹介 University of Colorado, Boulder Liquid Crystal Materials Research Center
- Sub 100 Nanosecond Pretilted Planar-to-Homeotropic Reorientation of Nematic Liquid Crystals under High Electric Field