液晶光阀特性研究凌朋PB05210356实验目的:本实验从基本原理的角度出发,测量其相关曲线,理解并解释相关现象.实验原理:1.偏振分光棱镜的的工作原理2.液晶光阀对于液晶排列与x轴(竖直向上)方向一致的指向矢n,我们假定电矢量的振动方向与x成角,而沿z方向(水平向右)入射的的电场矢量为的线偏振光,设z=0时的电矢量在x、y方向上的分量为、,则进行到z时的入射线偏振光的状态,可用下式表示。(1)式中:从(1)式可知,当和时,则Ey=0和EMBEDEquation.3xE=0,,即入射的线偏振光的偏振方向不发生变化;当EMBEDEquation.34/时,式(1)变成EMBEDEquation.322022sin2cos2EEEEEyxyx(2)液晶光阀的结构实验光路图数据处理:1.驱动电压为零,写入光为零时,绘出取向角EMBEDEquation.3与输出光强的关系曲线。取向角EMBEDEquation.3220225230235240245250255260265光强(EMBEDEquation.3A)00.30.60.91.12.04.86.38.510.4取向角270275280光强(EMBEDEquation.3A)11.512.011.6EMBEDOrigin50.Graph220230240250260270280024681012YAxisTitleXAxisTitleB5pointFFTSmoothingofData1X:取向角EMBEDEquation.3Y:输出光强采用的是5pointFFTSmoothing2.对于光阀片的不同位置,f=1kHz的情况下驱动电压和输出光强曲线=1\*GB3①.写入光为零,测量LCLV输出光强与驱动电压的关系。驱动电压(v)00.230.440.710.911.151.401.661.862.091.322.572.793.023.273.663.884.064.214.484.784.99输出光强1.00.95.514.028.935.037.839.739.837.135.0输出光强10.610.39.88.04.10.21.88.912.911.86.0驱动电压驱动电压(v)5.325.585.806.056.507.027.477.958.449.089.49输出光强31.227.024.622.017.913.711.09.47.86.15.500.280.440.831.081.411.611.812.151.362.605.04.84.03.93.03.02.5驱动电压EMBEDOrigin50.Graph-202468101214010203040YAxisTitleXAxisTitleB5pointFFTSmoothingofData1X:驱动电压Y:输出光强采用的是5pointFFTSmoothing=2\*GB3②.写入光全明(白9.9610.4211.0711.4512.0812.5213.15色照明灯压为8.64伏),测量LCLV输出光强与驱动电压的关系。驱动电压(v)输出光强输出光强11.011.210.24.94.65.05.98.813.214.314.2驱动电压(v)2.883.113.333.653.884.184.484.805.165.425.77输出光强14.717.220.527.029.030.132.030.126.124.220.5驱动电压(v)5.956.356.867.447.988.508.939.5310.0210.5210.96输出光强19.416.112.210.18.06.96.05.2...
