液晶光阀特性研究11系06级学号:PB06210288姓名:骆涛实验目的: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=0,,即入射的线偏振光的偏振方向不发生变化;当时,式(1)变成(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,绘出取向角与输出光强的关系曲线。=70是零度角。取向角707580859095100105110115光强()0.42.26.313.021.028.036.541.545.546.5取向角6560555045403530252015光强()1.75.410.517.825.835.941.545.646.545.041.2X:取向角Y:输出光强采用的是2pointFFTSmoothing2.对于图片的不同位置,f=1kHz的情况下驱动电压和输出光强曲线①.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)0.000.250.500.751.001.251.511.752.002.252.50输出光强43.050.057.069.080.074.032.01.120.552.169.1驱动电压(v)2.753.003.253.503.754.004.254.504.755.005.25输出光强70.550.018.02.06.518.429.838.643.044.041.0驱动电压(v)5.505.756.006.266.506.747.007.277.517.758.00输出光强36.030.024.018.014.010.07.04.93.72.01.5驱动电压(v)8.258.519.019.25输出光强1.01.01.01.0X:驱动电压Y:输出光强采用的是2pointFFTSmoothing②.写入光全明(白色照明灯压为8.64伏),测量LCLV输出光强与驱动电压的关系。驱动电压(v)0.000.250.500.751.011.251.501.742.012.252.50输出光强44.054.874.057.924.068.044.58.031.046.445.9驱动电压(v)2.753.003.263.503.754.014.254.504.745.005.24输出光强34.921.010.16.07.07.08.510.010.011.010.5驱动电压(v)5.505.756.016.256.496.767.017.247.497.74输出光强9.59.08.07.57.06.96.06.06.06.0X:驱动电压Y:输出光强采用的是2pointFFTSmoothing③.写入光为中间值(白色照明灯压为旋钮逆时针旋到最小),测量LCLV输出光强与驱动电压的关系。驱动电压(v)0.000.250.490.761.001.261.521.742.002.252.51输出光强44.055.071.768.519.064.061.516.016.038.250.0驱动电压(v)2.752.993.253.513.763.994.254.494.754.995.25输出光强46.536...
