[1] CAO J J, CHANG J, WANG W X et al. Design of off-axis aspheric four-mirror non-axial mechanical zoom optical system with large relative aperture[J]. Optics Express, 31, 29119-29131(2023).

[3] LI F Z, LUO X, ZHAO J L et al. Test of off-axis aspheric surfaces with CGH[J]. Optics and Precision Engineering, 19, 709-716(2011).

[4] 赵亮, 李朝荣. 航天遥感光学系统设计与研究[J]. 光电技术应用, 30, 22-25， 50(2015).

     ZHAO L, LI C R. Design and research on aerospace remote sensing optical system[J]. Electro-Optic Technology Application, 30, 22-25， 50(2015).

[5] YAN L S, ZHU D Y, LI M et al. Research on compensating stitching testing for convex aspherical surface[J]. Optics Communications, 474, 126162(2020).

[6] WANG X. Fabrication and testing of an off-axis aspheric surface with abnormal shape[J]. Infrared and Laser Engineering, 9, 2959-2964(2014).

[7] ZABOROWSKI W, HARMATYS W, GĄSKA A. The importance of differences in results obtained from measurements with various measuring systems and measuring modes in industrial practice[J]. Applied Sciences, 12, 12412(2022).

[8] GIBLER D M, MILLER S V, LITTLE E K. The importance of correct measurement： a response to palmer[J]. International Studies Quarterly, 64, 476-479(2020).

[9] GUO Q, FU W Y. An improved measurement method of size of mechanical parts based on monocular vision[J]. Journal of Physics： Conference Series, 1453(2020).

[10] CHEN B H, WU Q Y, TANG Y H et al. Processing method of large off-axis aspheric mirror[J]. Opt. Precision Eng., 29, 1095-1102(2021).

     陈宝华, 吴泉英, 唐运海. 大离轴量非球面反射镜的加工方法[J]. 光学 精密工程, 29, 1095-1102(2021).

[11] 钟波, 陈贤华, 王健. 高精度离轴非球面透镜的制造与检测[J]. 红外与激光工程, 47, 210-217(2018).

     ZHONG B, CHEN X H, WANG J et al. Fabrication and test of high-precision off-axis aspheric lens[J]. Infrared and Laser Engineering, 47, 210-217(2018).

[12] WEN L F, YAO Y B, ZHOU Q B et al. Design and technology of ultra-precision machining for off-axis aspheric mirror[J]. New Technology & New Process, 75-78(2017).

     温凌峰, 姚亚斌, 周启飚. 离轴非球面反射镜设计与超精密加工技术[J]. 新技术新工艺, 75-78(2017).

[13] LI Z, GRÖGER S. Experimental study of non-measured points on surface measurement using structured illumination microscopy[J]. Metrology and Measurement Systems, 763-778(2022).

[14] GUO W J, ZHAO L P, TONG C S et al. Adaptive centroid-finding algorithm for freeform surface measurements[J]. Applied Optics, 52, D75-D83(2013).

[15] BEVERAGE J L, SHACK R V, DESCOUR M R. Measurement of the three-dimensional microscope point spread function using a Shack-Hartmann wavefront sensor[J]. Journal of Microscopy, 205, 61-75(2002).

[16] SUN P F, ZHANG Q Z, LI W Q et al. Monocular multi-angle measurement method for spatial point[J]. Chinese Journal of Scientific Instrument, 35, 2801-2807(2014).

     孙鹏飞, 张求知, 李文强. 单目多角度空间点坐标测量方法[J]. 仪器仪表学报, 35, 2801-2807(2014).

[17] WISNIEWSKI H J, STALCUP T E, SMYTHE R A et al. Interferometric metrology probe for highly sloped freeform optics[J]. Applied Optics, 62, 8482-8490(2023).

[18] QI X Y, ZHOU C L, DING Y P et al. Novel absolute phase measurement method with few-patterns[J]. Optics and Lasers in Engineering, 154, 107031(2022).

[19] KUDO R, KITAYAMA T, TOKUTA Y et al. High-accuracy three-dimensional aspheric mirror measurement with nanoprofiler based on normal vector tracing method[J]. Optics and Lasers in Engineering, 98, 159-162(2017).

[20] NGUYEN P, LEE C. Freeform surface profiling by iterative learning-extremum seeking control[J]. The International Journal of Advanced Manufacturing Technology, 132, 5633-5646(2024).

[21] ZHANG Y, CHEN K, GUO P et al. Profile tracking for multi-axis ultrasonic inspection of model-unknown free-form surfaces based on energy concentration[J]. Measurement, 172, 108867(2021).

[22] WANG W B, ZHENG X, LIU Y H et al. Steep freeform measurement method based on a normal transverse differential confocal[J]. Optics Express, 30, 41804-41820(2022).

[23] QIU L R, SU Y H, XU K M et al. A high-precision multi-dimensional microspectroscopic technique for morphological and properties analysis of cancer cell[J]. Light, 12, 129(2023).

[24] WANG L X, WANG Y, MA X X et al. Measurement of laser differential confocal geometrical parameters for ICF capsule[J]. Matter and Radiation at Extremes, 4(2019).

[25] TANG Y Q, LIU Y H, WANG W B et al. Freeform measurement method based on differential confocal and real-time comparison[J]. Optics Express, 30, 12732-12750(2022).