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    Journals >Infrared and Laser Engineering >Volume 49 >Issue 10 >Page 20200273 > Article
    • Infrared and Laser Engineering
    • Vol. 49, Issue 10, 20200273 (2020)
    A single-frame deep learning phase retrieval algorithm based on defocus grating
    Xuejing Qiu1、2、3, Wang Zhao1、2, Chao Yang1、2、3, Tao Cheng1、2、3, Shuai Wang1、2, and Bing Xu1、2
    Author Affiliations
  • 1Key Laboratory of Adaptive Optics, Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu 610209, China
  • 2Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu 610209, China
  • 3University of Chinese Academy of Sciences, Beijing 100049, China
    • show less
    DOI: 10.3788/IRLA20200273 Cite this Article
    Xuejing Qiu, Wang Zhao, Chao Yang, Tao Cheng, Shuai Wang, Bing Xu. A single-frame deep learning phase retrieval algorithm based on defocus grating[J]. Infrared and Laser Engineering, 2020, 49(10): 20200273 Copy Citation Text show less
    References

    [1] J R Fienup, J C Marron, T J Schulz, et al. Hubble Space Telescope characterized by using phase-retrieval algorithms. Applied Optics, 32, 1747(1993).

    [2] Védrenne Nicolas, Laurent M Mugnier, Michau Vincent, et al. Laser beam complex amplitude measurement by phase diversity. Optics Express, 22, 4575-4589(2014).

    [3] C Gao, S Zhang, S Fu, et al. Adaptive optics wavefront correction techniques of vortex beams. Infrared and Laser Engineering, 46, 0201001(2017).

    [4] H Cheng, B Xiong, J Wang, et al. Phase retrieval technology based on chromatic dispersion and transport of intensity equation in lens model. Infrared and Laser Engineering, 48, 0603018(2019).

    [5] D L Misell. An examination of an iterative method for the solution of the phase problem in optics and electron optics: I. Test calculations. Journal of Physics D Applied Physics, 6, 2200-2216(1973).

    [6] J R Fienup, C Wackerman. Phase-retrieval stagnation problems and solutions. Journal of Optical Society of America A, 3, 1897-1907(1986).

    [7] R A Gonsalves. Phase retrieval and diversity in adaptive optics. Optical Engineering, 21, 829-832(1982).

    [8] A Z Greenbaum, A Sivarakrishnan. In-focus wavefront sensing using non-redundant mask-introduced pupil diversity. Optics Express, 24, 15506-15521(2016).

    [9] G Ju, X Qi, H Ma, et al. Feature-based phase retrieval wavefront sensing approach using machine learning. Optics Express, 26, 31767-31783(2018).

    [10] S W Paine, J R Fienup. Machine learning for improved image-based wavefront sensing. Optics Letters, 43, 1235-1238(2018).

    [11] Y Nishizaki, M Valdivia, R Horisaki, et al. Deep learning wavefront sensing. Optics Express, 27, 240-251(2019).

    [12] T Qinghua, L Chenda, L Bo, et al. DNN-based aberration correction in a wavefront sensorless adaptive optics system. Optics Express, 27, 10765-10776(2019).

    [13] H Guo, Y Xu, Q Li, et al. Improved machine learning approach for wavefront sensing. Sensors, 19, 3533-3545(2019).

    [14] Paul M Blanchard, Alan H Greenaway. Simultaneous multiplane imaging with a distorted diffraction grating. Applied Optics, 38, 6692-6699(1999).

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    Xuejing Qiu, Wang Zhao, Chao Yang, Tao Cheng, Shuai Wang, Bing Xu. A single-frame deep learning phase retrieval algorithm based on defocus grating[J]. Infrared and Laser Engineering, 2020, 49(10): 20200273
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