[1] Shanshan Wang, Yinlong Hou, Dawei Li, et al. 3D shape measurement of convex aspheric surface using reverse Hartmann test. Optics Communications, 464, 125552(2020).

[2] Peng Su, R E Parks, Lirong Wang, et al. Software configurable optical test system: A computerized reverse Hartmann test. Applied Optics, 49, 4404-4412(2010).

[3] Lilong Yan, Deyan Zhu, Ming Li, et al. Research on compensating stitching testing for convex aspherical surface. Optics Communications, 474, 126162(2020).

[4] Gongjing Yan, Xianzhong Zhang. Research on non-null convex aspherical sub-aperture stitching detection technology. Chinese Optics, 11, 798-803(2018).

[5] Zhihua Cai, Xiaokun Wang, Haixiang Hu, et al. Non-null stitching test convex aspheric metal mirror. Infrared and Laser Engineering, 50, 20210506(2021).

[6] Pengwei Zhao, Jinping Zhang, Lu Ye, et al. Catadioptric testing of large aperture convex hyperboloid surfaces. Acta Optica Sinica, 39, 1122003(2019).

[7] Jie Ma, Zheng Zhu. Testing convex aspherical surfaces with optimized modified Hindle arrangement. Infrared and Laser Engineering, 40, 277-281(2011).

[8] Lili Qi, Liehua Zheng, Lu Ye, et al. Convex aspheric surface testing method using an autocollimation lens. Acta Optica Sinica, 40, 0822001(2020).

[9] Jingang Yao, Liehua Hao Peiming Zheng. Hindle testing of convex aspheric double-lens with zero-focal power. Chinese Journal of Quantum Electronics, 34, 272-277(2017).

[10] Fengpu Wang, Xinnan Li, Chen Xu, et al. Optical testing path design for LOT aspheric segmented mirrors with reflective-diffractive compensation. Chinese Optics, 14, 1184-1193(2021).

[11] Zhigao Xia, Qiang Chen. Study on an off-axis convex aspheric compensator. Optics & Optoelectronic Technology, 19, 73-79(2021).

[12] Zhenchong Xing, Bao Zhang, Yongfeng Hong. Design of compensator of convex aspheric surface with small apertures. Chinese Journal of Lasers, 42, 1116001(2015).

[13] Deyan Zhu, Fang Wang, Ping Li, et al. Research on hybrid compensation testing of convex aspherical mirror. Optics and Lasers in Engineering, 132, 106108(2020).

[14] Jiantai Dou, Zhishan Gao, Zhongming Yang, et al. Deep aspheric surface test based on combination of computer generated holograms with low spatial frequency. Acta Optica Sinica, 36, 1112004(2016).

[15] Li He, Zhonghua Wu, Yan Kang, et al. High order aspheric testing with large asphericity, fast focal ratio and large diameter. Laser & Optoelectronics Progress, 53, 122201(2016).

[16] Shijie Li, Bingcai Liu, Ailing Tian, et al. A practical method for determining the accuracy of computer-generated holograms for off-axis aspheric surfaces. Optics and Lasers in Engineering, 77, 154-161(2016).

[17] Hongwei Qiu, Chunshui Jin, Jie Yu, et al. CGH encoding with variable step size search. Chinese Optics, 14, 368-374(2021).

[18] [18] Li Shijie. Testing offaxis aspheric surface by combinedhologram[D]. Beijing: University of Chinese Academy of Sciences, 2014. (in Chinese)