量子电子学报, 2017, 34 (4): 394, 网络出版: 2017-08-09
Φ 4 m口径凹抛物面镜折反零位补偿检验
Catadioptric null compensation test of a concave paraboloidal mirror with 4 m aperture
几何光学 大口径非球面检验 折反射式零位补偿检验 三级像差理论 光学系统设计 geometric optics large-aperture aspheric surface test catadioptric null compensation test third-order aberration theory optical system design
摘要
折反射式零位补偿检验是一种综合了Offner折射式和Maksutov反射式补偿检验优点的凹非球面检验 方法,补偿能力强,检测光路紧凑。大口径和大相对孔径非球面检验是制约其加工质量提高的难题,针对口径为4 m、 偏心率为1、顶点曲率半径为16 m的大口径凹抛物面反射镜,设计了折反射式零位补偿器。基于三级像差理论对补偿器的初始结构进行了 规划和计算,采用Zemax软件对初始结构参数进行了优化,得出了补偿器的最终结构,检验光路轴向尺寸约12 m,系统优化后剩余波相差为0.005λ。设计和仿真结果表明,这种折反射式零位补偿器对大口径凹非球 面镜的加工检测是非常有利的。
Abstract
Catadioptric null compensation test is a novel concave aspheric mirror testing method which combines the advantages of Offner refractive and Maksutov reflective compensation test. Its compensation ability is strong and testing optical path is compact. Non-spherical test with large aperture and large relative aperture is a difficult problem to restrict the improvement of its processing quality. In view of a concave paraboloidal reflector whose aperture is 4 m, eccentricity ratio is 1, and vertex curvature radius is 16 m, a catadioptric null compensator is designed. Based on the third-order aberration theory, the arrangement and calculation of the compensator initial structure is carried out. The initial structure parameters are optimized with Zemax, and the finial structure of compensator is obtained. The axial size of testing optical path is about 12 m. The residual wave phase error is 0.005λ after system optimization. The design and simulation results show that the catadioptric null compensator is very advantageous for the processing and testing of large aperture concave aspheric mirrors.
胡文琦, 叶璐, 何勇, 郑列华. Φ 4 m口径凹抛物面镜折反零位补偿检验[J]. 量子电子学报, 2017, 34(4): 394. HU Wenqi, YE Lu, HE Yong, ZHENG Liehua. Catadioptric null compensation test of a concave paraboloidal mirror with 4 m aperture[J]. Chinese Journal of Quantum Electronics, 2017, 34(4): 394.