[1] Peng Su. Design and tolerance analysis of the zoom system in 365 nm UV lithography illumination system. Infrared and Laser Engineering, 51, 20210524(2022).

[2] Armstrong J J, Chuang Y, Shafer D R. Catadioptric imaging system employing immersion liquid f use in broad b microscopy: US, 20080247035A1 [P]. 20081009.

[3] Shafer D, Chuang Y, Armstrong J. High perfmance catadioptric imaging system: US, 20040165257A1 [P]. 20040826.

[4] Jinlai Xue, Yan Gong, Dianmeng Li. Optical design of the N. A. 0.75 plan-apochromatic microscope objective. Chinese Optics, 8, 957-963(2015).

[6] Muwang Huang, Xu Liu, Faguan Lin. Design of large field of view and high numerical aperture microscope objective. Laser & Optoelectronics Progress, 60, 0518001(2023).

[7] Williamson D M. Broadb catadioptric microscope objective with small central obscuration: US, 201615762423[P]. 20181127.

[8] Graeupner P, Kuerz P, Stammler T, et al. EUV optics: status, outlook future [C] Proceedings of SPIE, 2022, 12051: 1205102.

[9] X Yan, Y Q Li, Y H Li, et al. Design of an extreme ultraviolet lithography projection objective with a grouping design method through forward and reverse real ray tracing. Applied Optics, 61, 7449-7454(2022).

[12] Shanshan Mao, Yanqiu Li, Ke Liu, et al. Optical design of high numerical aperture extreme ultraviolet lithography objective with freeform surfaces. Infrared and Laser Engineering, 48, 0814002(2019).

[13] Enyuan Zhou, Lihui Liu, Yan Liu, . Design of high NA flat-field microscope objective for near infrared. Infrared and Laser Engineering, 46, 0718006(2017).

[14] Matsuyama T, Ohmura Y, Fujishima Y, et al. Catadioptric projection lens f 1.3 NA scanner [C]Optical Microlithography XX, Proceedings of SPIE, 2007, 6520: 652021.

[17] Kneer B, Flagello D G, Gräupner P, et al. Catadioptric lens design: the breakthrough to hyperNA optics [C]Proceedings of SPIE, 2006, 6154: 615420.

[19] Li X, Wu M. Design of Compact space optical system with large relative aperture large field of view based on mangin mirr [C]6th International Symposium of Space Optical Instruments Applications, 2021: 253265.

[20] Zhiguang Ren, Xuyang Li, Dongwei Ni. Compact space optical system design with large relative aperture and field of view. Acta Optica Sinica, 39, 0922001(2019).

[22] Hu Wang, Qinfang Chen, Zhanpeng Ma, . Development and prospect of stray light suppression and evaluation technology (Invited). Acta Photonica Sinica, 51, 0751406(2022).

[23] Xu Weicai. Optical design imaging perfmance compensation f the lithographic lens [D]. Changchun: Chinese Academy of Sciences (Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences), 2011. (in Chinese)

[24] Guojun Du, Chunyu Wang, Zongyao Ou, . Assembly and adjustment method of multi-reference axis transmission optical system. Journal of Applied Optics, 42, 247-254(2021).