透明衬底透明膜椭偏数据处理分析

为了解决迭代法在反演透明衬底透明膜找偏参量时的出错问题,采用理论与实验相结合的方法,对透明衬底透明膜椭偏数据处理进行了理论分析和实验验证,找到了当薄膜折射率接近衬底折射率时,椭偏数据反演就会出错的原因。据此提出了分段遍寻迭代搜索法,以LABVIEW为开发工具,成功设计和编写了相应的数据处理程序,最后对一些样品进行了实际测量反演并与文献结果作了比较。结果表明,该程序能正确反演透明衬底单层透明膜的参量,并具有反演速度快、精确度可达0.03nm、稳定性好等特点。     

Enhancing light extraction of GaN-based blue light-emitting diodes by a tuned nanopillar arrayEnhancing light extraction of GaN-based blue light-emitting diodes by a tuned nanopillar array

Surface patterning of p-GaN to improve the light extraction efficiency of GaN-based blue light-emitting diodes （LEDs） has been investigated. Periodic nanopillar arrays on p-GaN have been fabricated by polystyrene （PS） nanosphere lithog- raphy; the diameter of the nanopillars can be tuned to optimize the electrical and optical properties of the LEDs. The electroluminescence intensity of the nanopillar-patterned LEDs is better than that of conventional LEDs; the greatest en- hancement increased the intensity by a factor of 1.41 at a 20 mA injection current. The enhancements can be explained by a model of bilayer film on a GaN substrate. This method may serve as a practical approach to improve the efficiency of light extraction from LEDs.     

液晶空间光调制器的调制特性测量

分析了液晶空间光调制器LC2002的工作原理,测量了振幅调制特性和最佳相位调制特性曲线.对经扭曲向列液晶空间光调制后的待测波面进行横向剪切干涉,用CCD记录其干涉图样,采用一维图像分析法得到最大相位调制为0.837π.实验证明液晶空间光调制器可以很好地进行相位调制.     

Enhancing light extraction of GaN-based blue light-emitting diodes by a tuned nanopillar array

Surface patterning of p-GaN to improve the light extraction efficiency of GaN-based blue light-emitting diodes(LEDs) has been investigated. Periodic nanopillar arrays on p-GaN have been fabricated by polystyrene(PS) nanosphere lithography; the diameter of the nanopillars can be tuned to optimize the electrical and optical properties of the LEDs. The electroluminescence intensity of the nanopillar-patterned LEDs is better than that of conventional LEDs; the greatest enhancement increased the intensity by a factor of 1.41 at a 20 mA injection current. The enhancements can be explained by a model of bilayer film on a GaN substrate. This method may serve as a practical approach to improve the efficiency of light extraction from LEDs.