[1] [1] Védrenne N, Mugnier L M, Michau V, et al. Laser beam com-plex amplitude measurement by phase diversity[J]. Optics Ex-press, 2014, 22(4): 4575–4589.

          Védrenne N, Mugnier L M, Michau V, et al. Laser beam com-plex amplitude measurement by phase diversity[J]. Optics Ex-press, 2014, 22(4): 4575–4589.

[2] [2] Gonsalves R A. Phase retrieval and diversity in adaptive op-tics[J]. Optical Engineering, 1982, 21(5): 215829.

          Gonsalves R A. Phase retrieval and diversity in adaptive op-tics[J]. Optical Engineering, 1982, 21(5): 215829.

[3] [3] Jiang W H. Overview of adaptive optics development[J]. Op-to-Electronic Engineering, 2018, 45(3): 170489.

          Jiang W H. Overview of adaptive optics development[J]. Op-to-Electronic Engineering, 2018, 45(3): 170489.

[4] [4] Wu J, Chen J B. A phase retrieval algorithm for X-ray phase contrast imaging[J]. Optik, 2013, 124(9): 864–866.

          Wu J, Chen J B. A phase retrieval algorithm for X-ray phase contrast imaging[J]. Optik, 2013, 124(9): 864–866.

[5] [5] Wu X Z, Yan A M. Phase retrieval from one single phase con-trast X-ray image[J]. Optics Express, 2009, 17(13): 11187–11196.

          Wu X Z, Yan A M. Phase retrieval from one single phase con-trast X-ray image[J]. Optics Express, 2009, 17(13): 11187–11196.

[6] [6] Fienup J R, Marron J C, Schulz T J, et al. Hubble Space Tele-scope characterized by using phase-retrieval algorithms[J]. Applied Optics, 1993, 32(10): 1747–1767.

          Fienup J R, Marron J C, Schulz T J, et al. Hubble Space Tele-scope characterized by using phase-retrieval algorithms[J]. Applied Optics, 1993, 32(10): 1747–1767.

[7] [7] Hartung M, Blanc A, Fusco T, et al. Calibration of NAOS and CONICA static aberrations experimental results[J]. Astronomy & Astrophysics, 2003, 399(1): 386–394.

          Hartung M, Blanc A, Fusco T, et al. Calibration of NAOS and CONICA static aberrations experimental results[J]. Astronomy & Astrophysics, 2003, 399(1): 386–394.

[8] [8] Bao H, Rao C H, Tian Y, et al. Research progress on adaptive optical image post reconstruction[J]. Opto-Electronic Engi-neering, 2018, 45(3): 170730.

          Bao H, Rao C H, Tian Y, et al. Research progress on adaptive optical image post reconstruction[J]. Opto-Electronic Engi-neering, 2018, 45(3): 170730.

[9] [9] Gerchberg R W, Saxton W O. A practical algorithm for the determination of phase from image and diffraction plane pic-tures[J]. Optik, 1972, 35(2): 237–246.

          Gerchberg R W, Saxton W O. A practical algorithm for the determination of phase from image and diffraction plane pic-tures[J]. Optik, 1972, 35(2): 237–246.

[10] [10] Fienup J R, Wackerman C C. Phase-retrieval stagnation prob-lems and solutions[J]. Journal of the Optical Society of America A, 1986, 3(11): 1897–1907.

          Fienup J R, Wackerman C C. Phase-retrieval stagnation prob-lems and solutions[J]. Journal of the Optical Society of America A, 1986, 3(11): 1897–1907.

[11] [11] Greenbaum A Z, Sivaramakrishnan A. In-focus wavefront sensing using non-redundant mask-induced pupil diversity[J]. Optics Express, 2016, 24(14): 15506–15521.

          Greenbaum A Z, Sivaramakrishnan A. In-focus wavefront sensing using non-redundant mask-induced pupil diversity[J]. Optics Express, 2016, 24(14): 15506–15521.

[12] [12] Li M, Li X Y, Jiang W H. Small-phase retrieval with a single far-field image[J]. Optics Express, 2008, 16(11): 8190–8197.

          Li M, Li X Y, Jiang W H. Small-phase retrieval with a single far-field image[J]. Optics Express, 2008, 16(11): 8190–8197.

[13] [13] Li M, Li X Y. Linear phase retrieval with a single far-field image based on Zernike polynomials[J]. Optics Express, 2009, 17(17): 15257–15263.

          Li M, Li X Y. Linear phase retrieval with a single far-field image based on Zernike polynomials[J]. Optics Express, 2009, 17(17): 15257–15263.

[14] [14] Meimon S, Fusco T, Mugnier L M. LIFT: a focal-plane wavefront sensor for real-time low-order sensing on faint sources[J]. Op-tics Letters, 2010, 35(18): 3036–3038.

          Meimon S, Fusco T, Mugnier L M. LIFT: a focal-plane wavefront sensor for real-time low-order sensing on faint sources[J]. Op-tics Letters, 2010, 35(18): 3036–3038.

[15] [15] Wang F L. Wavefront sensing through measurements of binary aberration modes[J]. Applied Optics, 2009, 48(15): 2865–2870.

          Wang F L. Wavefront sensing through measurements of binary aberration modes[J]. Applied Optics, 2009, 48(15): 2865–2870.

[16] [16] Wang S, Yang P, Ao M W, et al. Wavefront sensing by means of binary intensity modulation[J]. Applied Optics, 2014, 53(35): 8342–8349.

          Wang S, Yang P, Ao M W, et al. Wavefront sensing by means of binary intensity modulation[J]. Applied Optics, 2014, 53(35): 8342–8349.