Opto-Electronic Engineering, Volume. 50, Issue 12, 230231-1(2023)

Design of compact off-axis triple mirror optical system

Chengbin Jiang, Zhili Chen*, Xiaotong Wang, Yuan Zhang, and Shanshan Cheng
Author Affiliations
  • School of Optoelectronic Engineering, Xi 'an Technological University, Xi 'an, Shaanxi 710021, China
  • show less
    References(19)

    [1] Marlow W A, Carlton A K, Yoon H et al. Laser-guide-star satellite for ground-based adaptive optics imaging of geosynchronous satellites[J]. J Spacecraft Rockets, 54, 621-639(2017).

    [2] Groff T D, Zimmerman N T, Subedi H B et al. Roman Space Telescope CGI: prism and polarizer characterization modes[J]. Proc SPIE, 11443, 114433D(2021).

    [3] Lu C L, Bai Z G, Li Y C et al. Technical characteristic and new mode applications of GF-6 satellite[J]. Spacecr Eng, 30, 7-14(2021).

    [5] Han X L, Nie L, Ren M R. Optimal design of visible/infrared dual-band off-axis three-reflection optical system[J]. Infrared, 42, 1-6(2021).

    [6] Liu Y X, Zhang D D, Niu X H. Design of multi-spectrum push-broom optical system[J]. Opt Tech, 48, 139-143(2022).

    [7] Wei Y. Design of large field of view pushover optical system based on free-form surface[D](2020).

    [8] Wang B H, Liu Z M, Tang S F et al. Optical system design of high resolution dual-band IR remote sensor[J]. Laser Infrared, 52, 102-109(2022).

    [9] Shen Z J. Design of large field of view off-axis three-mirror reflective optical system[J]. Electro-Opt Technol Appl, 35, 24-27,64(2020).

    [10] Yang X, Li Y H, Zhang Y J et al. Optimal design of dual-band off-axis three-reflection optical system based on free-form surface[J]. Infrared Technol, 44, 1195-1202(2022).

    [11] Luo Q. Research on wide field and broad spectrum push-broom optical system[D](2017).

    [12] Yang C, Chen Y, Yu K X et al. Designof receiving optical system for multi-channel beam-split spaceborne Lidar[J]. Journal of Changchun University of Science and Technology (Natural Science Edition), 44, 7-12(2021).

    [13] He C W, Wang L H, Huang P et al. Design of diffractive imaging optical system based on off-axis four-mirror[J]. Opto-Electron Eng, 46, 190099(2019).

    [14] Wu L Q. Research on optical design with large field of view based on free-from surface and stray light suppression[D](2020).

    [15] Li Y Q, Cao C. Design of the freeform imaging optical system with large field of view and high resolution[J]. Opt Optoelectron Technol, 19, 57-63(2021).

    [16] Zhang Y, Chen Z L, Hu T et al. Design of telephoto off-axis three-mirror optical system[J]. Opt Optoelectron Technol, 21, 72-80(2023).

    [17] Nakano T, Tamagawa Y. Configuration of an off-axis three-mirror system focused on compactness and brightness[J]. Appl Opt, 44, 776-783(2005).

    [18] Shan B Z, Wang S Y, Niu H B et al. Zernike polynomial fitting method and its application[J]. Opt Precision Eng, 10, 318-323(2002).

    [19] Sun Y H, Sun Y Q, Chen X Y et al. Design of a free-form off-axis three-mirror optical system with a low f-number based on the same substrate[J]. Appl Opt, 61, 7033-7040(2022).

    Tools

    Get Citation

    Copy Citation Text

    Chengbin Jiang, Zhili Chen, Xiaotong Wang, Yuan Zhang, Shanshan Cheng. Design of compact off-axis triple mirror optical system[J]. Opto-Electronic Engineering, 2023, 50(12): 230231-1

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category: Article

    Received: Sep. 14, 2023

    Accepted: Nov. 23, 2023

    Published Online: Mar. 26, 2024

    The Author Email: Zhili Chen (陈智利)

    DOI:10.12086/oee.2023.230231

    Topics