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    Journals >Optical Technique >Volume 51 >Issue 2 >Page 159 > Article
    • Optical Technique
    • Vol. 51, Issue 2, 159 (2025)
    Research on residual aberration suppression method of conformal dome by wavefront coding
    LIN Lin, ZOU Bolin, ZHANG Jialiang, ZHU Chonghui..., YU Jiaqian* and SUN Chaofan|Show fewer author(s)
    Author Affiliations
  • Faculty of Science, Northeast Forestry University, Harbin 150040, China
    • show less
    DOI: Cite this Article
    LIN Lin, ZOU Bolin, ZHANG Jialiang, ZHU Chonghui, YU Jiaqian, SUN Chaofan. Research on residual aberration suppression method of conformal dome by wavefront coding[J]. Optical Technique, 2025, 51(2): 159 Copy Citation Text show less
    References

    [1] Mills J P. Conformal optics: theory and practice[C]∥The International Society for Optical Engineering. San Diego,CA,USA:SPIE,2001:101—107.

    [2] Zhang Wang, Zuo Baojun, Chen Shouqian, et al. Design of fixed correctors used in conformal optical system based on diffractive optical elements[J]. Applied Optics,2013,52(3):461—466.

    [3] Manhart P K, Knapp D, Ellis S, et al. Optical system with zernike-shaped corrector: US6313951[P]. 2001-11-06.

    [4] Whalen M R, Gardner L R, Thompson K P. Correcting variable third-order astigmatism introduced by conformal aspheric surfaces[C]∥International Optical Design Conference. Kailua-Kona, Hawaii United States:Optica Publishing Group,1998:62—73.

    [5] Li Yan, Li Lin, Huang Yifan, et al. Conformal optical design with combination of static and dynamic aberration corrections[J]. Chinese Physics B,2009,18(2):565—570.

    [6] Zhang Wang, Chen Shouqian, Hao Chenglong, et al. Conformal dome aberration correction with gradient index optical elements[J]. Optics Express,2014,22(3):3514—3525.

    [7] Palusinski I A, Sasian J M, Greivenkamp J E. Lateral-shift variable aberration generators[J]. Applied Optics,1999,38(1):86—90.

    [11] Nayar S K. Computational cameras: Redefining the image[J]. Computer,2006,39(8):30—38.

    [12] Dowski E R, Cathey W T. Extended depth of field through wave-front coding[J]. Applied Optics,1995,34(11):1859— 1866.

    [13] Bradburn S, Cathey W T, Dowski E R. Realizations of focus invariance in optical-digital systems with wave-front coding[J]. Applied Optics,1997,36(35):9157—9166.

    [14] Chen Shouqian, Fan Zhigang, Xu Zhigao, et al. Wavefront coding technique for controlling thermal defocus aberration in an infrared imaging system[J]. Optics Letters,2011,36(16):3021—3023.

    [15] Mezouari S, Harvey A R. Phase pupil functions for reduction of defocus and spherical aberrations[J]. Optics Letters,2003,28(10):771—773.

    [16] Olvera-Angeles M, Gonzlez-Amador E, Arines J, et al. Jacobi-Fourier phase masks to increase performance of wavefront-coded optical systems for random or varying aberration alleviation[J]. Japanese Journal of Applied Physics,2020,59(SO):SOOD07.

    [17] Tremblay E J, Rutkowski J, Tamayo I, et al. Relaxing the alignment and fabrication tolerances of thin annular folded imaging systems using wavefront coding[J]. Applied Optics,2007,46(27):6751— 6758.

    [18] Kubala K, Dowski E, Cathey W T. Reducing complexity in computational imaging systems[J]. Optics Express,2003,11(18):2102—2108.

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    LIN Lin, ZOU Bolin, ZHANG Jialiang, ZHU Chonghui, YU Jiaqian, SUN Chaofan. Research on residual aberration suppression method of conformal dome by wavefront coding[J]. Optical Technique, 2025, 51(2): 159
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