Citation: | WU Qing, SHI Guang-wei, ZHANG Jian-ping, ZHAO Shang-nan, ZHANG Xin. Design of catadioptric anamorphic optical system[J].Chinese Optics, 2023, 16(6): 1376-1383.doi:10.37188/CO.2023-0035 |
The anamorphic optical system has a two-plane symmetry, with different focal lengths in the two symmetry planes. This system can obtain a wider field of view when using sensors with conventional size. We propose a method for designing catadioptric anamorphic optical systems based on their first-order aberration characteristics. A catadioptric anamorphic optical system is designed by using a biconic surface, with a focal length of 500 mm in the
[1] |
HENRI C. Anamorphotic lens system and method of making the same: US, 1962892A[P]. 1934-06-12.
|
[2] |
MIGURA S, KNEER B, NEUMANN J T,
et al. Anamorphic high-NA EUV lithography optics[J].
Proceedings of SPIE, 2015, 9661: 96610T.
doi:10.1117/12.2196393
|
[3] |
钟志坚, 李琛毅, 李世光, 等. 先进光刻中的聚焦控制预算(I)-光路部分[J]. 中国光学,2021,14(5):1104-1119.
doi:10.37188/CO.2021-0033
ZHONG ZH J, LI CH Y, LI SH G,
et al. Budget analysis of focus control in advanced lithography (I) -optical path[J].
Chinese Optics, 2021, 14(5): 1104-1119. (in Chinese)
doi:10.37188/CO.2021-0033
|
[4] |
TAN Q W, GUO Y D, LI Y,
et al. Primary aberration optimization for double-plane symmetric beam shaping systems using a pair of curved reference surfaces[J].
Optics Express, 2022, 30(5): 7664-7676.
doi:10.1364/OE.449222
|
[5] |
KASHIMA S, HAZUMI M, IMADA H,
et al. Wide field-of-view crossed Dragone optical system using anamorphic aspherical surfaces[J].
Applied Optics, 2018, 57(15): 4171-4179.
doi:10.1364/AO.57.004171
|
[6] |
DEHOOG E A. Anamorphic zoom lens based on rotating cylindrical lenses[J].
Optics Express, 2021, 29(8): 12206-12214.
doi:10.1364/OE.422097
|
[7] |
XU CH, SONG W T, WANG Y T. Design of a miniature anamorphic lens with a freeform front group and an aspheric rear group[J].
Optical Engineering, 2021, 60(6): 065104.
|
[8] |
WYNNE C G. The primary aberrations of anamorphotic lens systems[J].
Proceedings of the Physical Society. Section B, 1954, 67(7): 529-537.
doi:10.1088/0370-1301/67/7/303
|
[9] |
ROGERS J R.
Aberrations of unobscured reflective optical systems[D]. Tucson: University of Arizona, 1983.
|
[10] |
ZHANG J K, CHEN X B, LI F J,
et al. Paraxial lens design of anamorphic lenses with a fixed anamorphic ratio[J].
OSA Continuum, 2019, 2(4): 1430-1454.
doi:10.1364/OSAC.2.001430
|
[11] |
YUAN SH, SASIAN J. Aberrations of anamorphic optical systems. I: the first-order foundation and method for deriving the anamorphic primary aberration coefficients[J].
Applied Optics, 2009, 48(13): 2574-2584.
doi:10.1364/AO.48.002574
|
[12] |
YUAN SH, SASIAN J. Aberrations of anamorphic optical systems. II. Primary aberration theory for cylindrical anamorphic systems[J].
Applied Optics, 2009, 48(15): 2836-2841.
doi:10.1364/AO.48.002836
|
[13] |
潘君骅. 光学非球面的设计、加工与检验[M]. 苏州: 苏州大学出版社, 2004.
PAN J H.
The Design, Manufacture and Test of the Aspherical Optical Surfaces[M]. Suzhou: Soochow University Press, 2004. (in Chinese)
|
[14] |
朱浩, 崔庆丰, 朴明旭. 无遮拦三反射镜变形光学系统设计[J]. 光学学报,2014,34(12):1222005.
doi:10.3788/AOS201434.1222005
ZHU H, CUI Q F, PIAO M X. Design of unobscured three-mirror anamorphic optical systems[J].
Acta Optica Sinica, 2014, 34(12): 1222005. (in Chinese)
doi:10.3788/AOS201434.1222005
|
[15] |
YUAN SH.
Aberrations of anamorphic optical systems[D]. Tucson: University of Arizona, 2008.
|
[16] |
白晓泉, 郭良, 马宏财, 等. 离轴三反望远镜轴向与横向失调量像差耦合特性[J]. 中国光学(中英文),2022,15(4):747-760.
doi:10.37188/CO.2021-0164
BAI X Q, GUO L, MA H C,
et al. Aberration coupling characteristics of axial and lateral misalignments of off-axis three-mirror telescopes[J].
Chinese Optics, 2022, 15(4): 747-760. (in Chinese)
doi:10.37188/CO.2021-0164
|
[17] |
孟庆宇, 秦子长, 任成明, 等. 光学系统降敏设计方法综述[J]. 中国光学(中英文),2022,15(5):863-877.
doi:10.37188/CO.2022-0096
MENG Q Y, QIN Z CH, REN CH M,
et al. Review of optical systems′ desensitization design methods[J].
Chinese Optics, 2022, 15(5): 863-877. (in Chinese)
doi:10.37188/CO.2022-0096
|