| 1. | Feasibility study of liquid crystal light valve on beam - shaping
反射式液晶光阀用于激光束空间整形可行性研究 |
| 2. | The dissertation gives the detail analyze and calculation of the characteristics of the lclv
论文对液晶光阀的电学和光学特性进行了深入的分析和计算。 |
| 3. | In order to improve the performance of the lclv further , the perpendicular alignment of liquid crystal with proper pre - tilt angle was studied
为进一步提高反射式液晶光阀的性能,我们研究了带预倾角液晶的垂直定向。 |
| 4. | In this dissertation , the photo - addressed cds - cdse liquid crystal light valve and its application in large screen projection displays are studied
本论文的研究工作,主要针对光寻址液晶光阀及其在大屏幕投影中的应用展开。 |
| 5. | The lateral diffusion of the photo - carrier in photoconductor layer is one of the important factors of affecting the resolution of lclv
液晶光阀的分辨率与许多因素有关,而光导层光生载流子的横向扩散则是其中的重要因素之一。 |
| 6. | Based on these studies above , we successfully fabricate the high performance cds - cdse lclv . the characteristics of the lclv are measured in the thesis
在分析计算的基础上,我们制备了cds - cdse液晶光阀,并测试了它的主要性能参数。 |
| 7. | In this paper , the reason of the break - off of the films is analyzed , and the problem has been solved . the function of the liquid crystal is modulating the read beam
液晶在液晶光阀中起着调制读出光的作用,液晶调制光性能的优劣与定向层的好坏,定向方式等密切相关。 |
| 8. | Results show that the performance of the lclv is mainly dependent on the match of the electrical parameters of all the function layers in lclv and the working mode of the liquid crystal
研究结果表明, cds - cdse液晶光阀的性能主要取决于二个方面,一是光电导层和光阀其他部分的电学匹配;另一是液晶的工作模式的选取。 |
| 9. | We successfully obtain multi domain alignment with different tilt direction in one exposure processing . at last , the lclv large screen projection system is setup with self made lclv , producing 3x4m2 high - resolution picture
最后我们用自制的液晶光阀建立了液晶光阀大屏幕投影显示系统,实现了3 4米~ 2的高分辨率显示。 |
| 10. | It will be known from the obtained expression of the resolution of photoconductor that the column microstructure is benefit to reduce the carrier diffusion in the lateral direction and increase the resolution of the photoconductor
这种各向异性的柱状结构复合光导膜有利于减小光生载流子的横向扩散长度,从而可以提高液晶光阀光导层的分辨率。 |
