Infrared and Laser Engineering, Volume. 51, Issue 2, 20210852(2022)
Review of design methodology for starting-point of freeform surface imaging optical system
References(44)
[1] Li X Y, Ni D W, Yang M Y, et al. Design of large field of view space camera optical system based on freeform surfaces[J]. Acta Optica Sinica, 47, 0922003(2018).
[2] Ye J F, Yu J, Song Z Z, et al. Design of a compact off-axis two-mirror freeform infrared imager with a wide field of view[J]. Journal of Modern Optics, 66, 1-8(2018).
[3] Ye J F, Xu K D, Yang M Z, et al. Design of off-axis head-mounted display optical system based on two reflective optical free-form surfaces[J]. Acta Optica Sinica, 38, 0722003(2018).
[4] Su P C, Chen Y, Zhang J M, et al. Design of bionic compound eye system based on hexagonal closely spliced structure[J]. Infrared and Laser Engineering, 50, 20200338(2021).
[5] Jiang Y, Quan X Q, Du J, et al. Design of deep-sea optical imaging system with wide field of view and ultra-high resolution[J]. Optics and Precision Engineering, 27, 2289-2295(2019).
[6] Zhang Jialun, Zheng Yuquan, Lin Chao, et al. Design of a freeform curved prism imaging spectrometer based on an anastigmatism[J]. Chinese Optics, 13, 842-851(2020).
[7] Mao S S, Li Y Q, Liu K, et al. Optical design of high numerical aperture extreme ultraviolet lithography objective with freeform surfaces[J]. Infrared and Laser Engineering, 48, 0814002(2019).
[8] Yang T, Duan Y Z, Cheng D W, et al. Freeform imaging optical system design: Theories, development, and applications[J]. Acta Optica Sinica, 41, 0108001(2021).
[9] Xu L D, Fang A L, Yu J H, et al. Ultrasonic-vibration assisted grinding of a zerodour freeform optical mirror[J]. Optics and Precision Engineering, 27, 2564-2570(2019).
[10] [10] Liang Z J, Yang Y Y, Zhao H Y, et al. Advances in research application of optical aspheric surface metrology[JOL]. [20211019]. http:www.chineseoptics..cncnarticledoi10.37188CO.20210143.
[11] Thompson K P, Rolland J P. Freeform optical surfaces: A revolution in imaging optical design[J]. Optics & Photonics News, 23, 30-35(2012).
[12] Ye J F, Chen L, Li X H, et al. Review of optical freeform surface representation technique and its application[J]. Optical Engineering, 56, 110901(2017).
[13] Bauer A, Schiesser E M, Rolland J P. Starting geometry creation and design method for freeform optics[J]. Nature Communications, 9, 1756(2018).
[14] Kyle Fuerschbach, Jannick P Rolland, Kevin P Thompson. A new family of optical systems employing φ-polynomial surfaces[J]. Optics Express, 19, 21919-21928(2011).
[15] Trumper I, Anderson A Q, Howard J M, et al. Design form classification of two-mirror unobstructed freeform telescopes[J]. Optical Engineering, 59, 025105(2020).
[16] Wassermann G D, Wolf E. On the theory of aplanatic aspheric systems[J]. Proceedings of the Physical Society, Section B, 62, 2-8(1949).
[17] Vaskas E M. Note on the Wasserman-Wolf method for designing aspheric surfaces[J]. Journal of the Optical Society of America, 47, 669-670(1957).
[18] [18] Knapp D J. Confmal optical design [D]. Arizona: University of Arizona, 2002.
[19] [19] Hicks R A. Direct methods f freefm surface design[C] Proceedings of SPIE, Conference on Novel Optical Systems Design Optimization X, 2007, 6668: 666802.
[20] [20] Cheng D W, Wang Y T, Hua H. Free fm optical system design with differential equations[C]Proceedings of SPIE, 2010, 7849: 78490Q.
[21] Miñano J C, Benítez P, González J C. RX: A nonimaging concentrator[J]. Applied Optics, 34, 2226-2235(1995).
[22] Miñano J C, Benítez P, Wang L, et al. An application of the SMS method for imaging designs.[J]. Optics Express, 17, 24036-24044(2009).
[23] Duerr F, Benítez P, Miñano J C, et al. Analytic free-form lens design in 3D: Coupling three ray sets using two lens surfaces[J]. Optics Express, 20, 10839-10846(2012).
[24] Nie Y, Thienpont H, Duerr F. Multi-fields direct design approach in 3D: Calculating a two-surface freeform lens with an entrance pupil for line imaging systems[J]. Optics Express, 23, 34042-34054(2015).
[25] Nie Y, Mohedano R, P Benítez, et al. Multifield direct design method for ultrashort throw ratio projection optics with two tailored mirrors[J]. Applied Optics, 55, 3794-3800(2016).
[26] Zhu J, Yang T, Jin G F. Design method of surface contour for a freeform lens with wide linear field-of-view[J]. Optics Express, 21, 26080-26092(2013).
[27] Yang T, Zhu J, Jin G F. Design of freeform imaging systems with linear field-of-view using a construction and iteration process[J]. Optics Express, 22, 3362-3374(2014).
[28] Yang T, Zhu J, Hou W, et al. Design method of freeform off-axis reflective imaging systems with a direct construction process[J]. Optics Express, 22, 9193-9205(2014).
[29] Yang T, Zhu J, Wu X F, et al. Direct design of freeform surfaces and freeform imaging systems with a point-by-point three-dimensional construction-iteration method[J]. Optics Express, 23, 10233-10246(2015).
[30] Zhu J, Wu X, Yang T, et al. Generating optical freeform surfaces considering both coordinates and normals of discrete data points[J]. Journal of the Optical Society of America A Optics Image Science & Vision, 31, 2401-2408(2014).
[31] Yang T, Zhu J, Jin G. Starting configuration design method of freeform imaging and afocal systems with a real exit pupil[J]. Apply Optics, 55, 345-353(2016).
[32] Yang T, Jin G F, Zhu J. Automated design of freeform imaging systems[J]. Light: Science & Applications, 6, e17081(2017).
[33] [33] Yao Y X. Research on optimization strategy design method of offaxis reflection freefm surface optical system[D]. Nanjing: Nanjing University of Science Technology, 2019. (in Chinese)
[34] Yao Y X, Yuan Q, Chen L, et al. Freeform surface design method combined with surface and field-of-view optimization[J]. Infrared and Laser Engineering, 47, 1018001(2018).
[35] Meng Q Y, Wang H Y, Liang W J, et al. Design of off-axis three-mirror systems with ultrawide field of view based on an expansion process of surface freeform and field of view[J]. Applied Optics, 58, 609-615(2019).
[36] [36] Ksch D. Reflective Optics[M]. US: Academic Press, 1991.
[37] Yang J, Liu W, Lv W, et al. Method of achieving a wide field-of-view head-mounted display with small distortion[J]. Optics Letters, 38, 2035-2037(2013).
[38] [38] Fournier F R, Cassarly W J, Roll J P. Designing freefm reflects f extended sources[C]Proceedings of SPIE, 2009, 7423: 742302.
[39] Cheng D W, Chen X J, Xu C, et al. Optical description and design method with annularly stitched aspheric surface[J]. Applied Optics, 54, 10154-10162(2015).
[40] Chen L, Gao Z S, Ye J F, et al. Construction method through multiple off-axis parabolic surfaces expansion and mixing to design an easy-aligned freeform spectrometer[J]. Optics Express, 27, 25994-26013(2019).
[41] Chen L, Gao Z S, Xu N Y, et al. Construction of freeform mirrors for an off-axis telecentric scanning system through multiple surfaces expansion and mixing[J]. Results in Physics, 19, 103354(2020).
[42] [42] Chen L. Study of optical design method f imaging system based on stitching fusion of segmented surfaces[D]. Nanjing: Nanjing University of Science Technology, 2021. (in Chinese)
[43] [43] Cao X. Research on design method of optical system based on field of view segmentation[D]. Nanjing: Nanjing University of Science Technology, 2021. (in Chinese)
[44] Cao X, Gao Z S, Xu N Y, et al. Design of electronic endoscope objective lens optical system based on annularly stitched surface[J]. Chinese Journal of Lasers, 48, 2107003(2021).
CLP Journals
Tools
Get Citation
Copy Citation Text
Ningyan Xu, Lu Chen, Jing Huang, Yutong Zou, Qun Yuan, Zhishan Gao. Review of design methodology for starting-point of freeform surface imaging optical system[J]. Infrared and Laser Engineering, 2022, 51(2): 20210852
Paper Information
Category: Special issue-Precision optical metrological testing
Received: Nov. 15, 2021
Accepted: --
Published Online: Mar. 21, 2022
The Author Email:
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20