Xu Min
Institute for Ultrafast Spectroscopy, NY State Center of Advanced Technology for Ultrafast Photonic Materials and Applications, New York, 10031, USA.
Appl Opt. 2003 Nov 20;42(33):6710-23. doi: 10.1364/ao.42.006710.
From the geometrical path statistics of rays in an anomalous-diffraction theory (ADT) [Opt. Lett. 28, 179 (2003)] closed-form expressions for the geometrical path distribution of rays and analytical formulas for the optical efficiencies of finite circular cylinders oriented in an arbitrary direction with respect to the incident light are derived. The characteristics of the shapes of the cylinders produce unique features in the geometrical path distributions of the cylinders compared with spheroids. Gaussian ray approximations, which depend only on the mean and the mean-squared geometrical paths of rays, of the optical efficiencies of finite circular cylinders and spheroids are compared with the exact optical efficiencies in ADT. The influence of the difference in shape between cylinders and spheroids on the optical efficiencies in ADT is illustrated by their respective geometrical path distributions of rays.
从反常衍射理论(ADT)[《光学快报》28, 179 (2003)]中光线的几何路径统计出发,推导出了光线几何路径分布的闭式表达式,以及相对于入射光沿任意方向取向的有限圆柱体光学效率的解析公式。与球体相比,圆柱体形状的特征在圆柱体的几何路径分布中产生了独特的特性。将仅依赖于光线平均几何路径和几何路径均方的有限圆柱体和球体光学效率的高斯光线近似与ADT中的精确光学效率进行了比较。通过圆柱体和球体各自的光线几何路径分布,说明了它们形状差异对ADT中光学效率的影响。