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Field enhancement and reduction and elimination of remanent light flow in electrooptic bulk and thin film displays and spatial light modulators. Theory and practice

机译：场增强，减少和消除电光体和薄膜显示器以及空间光调制器中的剩余光流。理论与实践

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Efforts have been made to examine the mechanism of the remanent light flow problem in ceramic bulk (such as lead lanthanum zirconate titanate or PLZT) and thin-film (such as PLZT, BaTiO/sub 3/, LiNbO/sub 3/, SBN) displays and spatial light modulators. Effective methods of reducing and eliminating remanent light flow by using buffer and capping layers on the surface of the devices have been examined. Several very effective buffer and capping layers have been tested which can not only reduce or eliminate the remanent light flow but can also enhance the electrooptic effect by 10 to 30%. The physical origin of the remanent light flow, methods for eliminating it, and the physical origin of the electrooptic enhancement effect are examined, and experimental results are presented.

机译：已努力检查陶瓷块（如锆钛酸镧镧钛酸盐或PLZT）和薄膜（如PLZT，BaTiO / sub 3 /，LiNbO / sub 3 /，SBN）中剩余光流问题的机理。显示器和空间光调制器。已经研究了通过使用器件表面上的缓冲层和覆盖层来减少和消除剩余光流的有效方法。已经测试了几个非常有效的缓冲层和覆盖层，它们不仅可以减少或消除剩余的光流，而且还可以将电光效应提高10％到30％。研究了剩余光流的物理起源，消除方法以及电光增强效应的物理起源，并给出了实验结果。

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《》|1992年|P.604-606|共3页
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Wu; A.Y.;
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中图分类无线电电子学、电信技术;
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1. Reduction of film thickness for chemical solution deposited PbZr_(0.3)Ti_(0.7)O_3 thin films revealing no size effects and maintaining high remanent polarization and low coercive field [J] . U. Ellerkmann, T. Schneller, C. Nauenheim, Thin Solid Films . 2008,第15期

机译：减少化学溶液沉积的PbZr_（0.3）Ti_（0.7）O_3薄膜的膜厚度，不显示尺寸效应，并保持高剩余极化率和低矫顽场
2. Microcavity effects and the outcoupling of light in displays and lighting applications based on thin emitting films [J] . Neyts K Applied Surface Science . 2005,第1a4期

机译：基于薄膜的显示器和照明应用中的微腔效应和光的耦合
3. Enhanced Electrooptical Characteristics of Twisted Nematic Liquid Crystal Display With $hbox{ZrO}_{2}$ Thin Films [J] . Kim L.-G., Park H.-G., Kim Y.-H., Electron Device Letters, IEEE . 2012,第8期

机译：具有$ hbox {ZrO} _ {2} $薄膜的扭曲向列液晶显示器的增强电光特性
4. Field enhancement and reduction and elimination of remanent light flow in electrooptic bulk and thin film displays and spatial light modulators. Theory and practice [C] . Wu A.Y., Institute of Electric and Electronic Engineer IEEE International Symposium on Applications of Ferroelectrics . 1992

机译：电光散装和薄膜显示器和空间光调制器中的野外增强和消除反弹光流。理论与实践
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Field enhancement and reduction and elimination of remanent light flow in electrooptic bulk and thin film displays and spatial light modulators. Theory and practice

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