摘要
通过采用矢量光学和光线追迹算法来建立具有面形误差角反射器的几何光路模型,可以得到各种面形误差、不同入射角和不同底面切割形状的有效反射面积;通过蒙特卡洛法对夫琅禾费衍射进行模拟,可以得到角反射器的远场衍射能量分布模型。针对三角形切割的球面面形误差的角反射器,介绍了角反射器内部光线路径和蒙特卡洛衍射,给出了具有不同球面面形误差的有效反射面积和衍射分布。以上分析手段可以为特殊用途角反射器、相位补偿和光行差角补偿等方案提供结构设计、优化和校验。
Vector optics and ray tracing method is used to build geometric optical path model for the Corner Cube Reflector( CCR) with non-flatness.And the effective reflection area for different surface errors,angle of incidence and bottom-cutting shape is obtained. Also,the far-field diffraction pattern of the CCR is obtained with the aid of the Monte-Carlo based Fraunhofer diffraction. For the triangle-cutting CCR with curved surfaces,we firstly presents the inside optical path and the method of the Fraunhofer diffraction based on Monte-Carlo simulation. Then,the effective reflection area and diffraction pattern for different curved surface errors are provided.The proposed analytical approach benefits the design,optimization and validation of some special CCRs,phase compensation and aberration angle compensation.
出处
《无线电工程》
2017年第11期54-58,共5页
Radio Engineering
基金
国家自然科学基金资助项目(61405051
61501157
11574068)
浙江省自然科学基金资助项目(LY17F050012
LQ16F050004
LZ15E050004)
中国电子科技集团公司航天信息应用技术重点实验室高校合作课题基金资助项目
关键词
角反射器
面形误差
有效反射面积
远场衍射
corner cube reflector
curved surface error
effective reflection area
farfield diffraction
