[1] Daniel Malacara. Optical Shop Testing[M]. New York: John Wiley & Sons, 2007.
[2] T Shirai, T H Barnes, T G Haskell. Adaptive wave-front correction by means of all-optical feedback interferometry[J]. Opt Lett, 2000, 25(11): 773-775.
[3] C Hernandez-Gomez, J L Collier, S J Hawkes, et al.. Wave-front control of a large-aperture laser system by use of a static phase corrector[J]. Appl Opt, 2000, 39(12): 1954-1961.
[4] J Primot. Theoretical description of Shack-Hartmann wave-front sensor[J]. Opt Commun, 2003, 222(1): 81–92.
[5] J Primot, N Guérineau. Extended Hartmann test based on the pseudoguiding property of a Hartmann mask completed by a phase chessboard[J]. Appl Opt, 2000, 39(31): 5715-5720.
[6] Fuzhong Bai, Xiaoqiang Wang, Kaizheng Huang, et al.. Analysis of spatial resolution and pinhole size for single-shot pointdiffraction interferometer using in closed-loop adaptive optics[J]. Opt Commun, 2013, 297: 27-31.
[7] J E Millerd, N J Brock, J B Hayes, et al.. Instantaneous phase-shift point-diffraction interferometer[C]. SPIE, 2004, 5531: 264-272.
[8] R M Neal, J C Wyant. Polarization phase-shifting point-diffraction interferometer[J]. Appl Opt, 2006, 45(15): 3463-3476.
[9] V Ronchi. Forty years of history of a grating interferometer[J]. Appl Opt, 1964, 3(4): 437-451.
[10] P Hariharan, D Sen. Radial shearing interferometer[J]. J Scientific Instruments, 1961, 38(11): 428.
[11] Tong Ling, Dong Liu, Yongying Yang, et al.. Off-axis cyclic radial shearing interferometer for measurement of centrally blocked transient wavefront[J]. Opt Lett, 2013, 38(14): 2493-2495.
[12] Dong Liu, Yongying Yang, Lin Wang, et al.. Real time diagnosis of transient pulse laser with high repetition by radial shearing interferometer[J]. Appl Opt, 2007, 46(34): 8305-8314.
[13] P Bon, G Maucort, B Wattellier, et al.. Quadriwave lateral shearing interferometry for quantitative phase microscopy of living cells[J]. Opt Express, 2009, 17(15): 13080-13094.
[14] C Rouyer, S Mousset. Piston measurement by quadriwave lateral shearing interferometry[J]. Opt Lett, 2006, 31(17): 2634- 2636.
[15] S Velghe, J Primot, N Guérineau, et al.. Wave-front reconstruction from multidirectional phase derivatives generated by multilateral shearing interferometers[J]. Opt Lett, 2005, 30(3): 245-247.
[16] S Velghe, J Primot, N Guérineau, et al.. Advanced wave-front sensing by quadri-wave lateral shearing interferometry[C]. SPIE, 2006, 6292: 62920E.
[17] J C F Chanteloup, M Cohen. Compact high resolution four wave lateral shearing interferometer[C]. SPIE, 2004, 5252: 282- 292.
[18] F Roddier, C Roddier. Wavefront reconstruction using iterative Fourier transforms[J]. Appl Opt, 1991, 30(11): 1325-1327.
[19] S Velghe, R Ha dar, N Guérineau, et al.. In situ optical testing of infrared lenses for high-performance cameras[J]. Appl Opt, 2006, 45(23): 5903-5909.
[20] M Takeda, H Ina, S Kobayashi. Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry[J]. J Opt Soc Am, 1982, 72(1): 156-160.
[21] C Roddier, F Roddier. Interferogram analysis using Fourier transform techniques[J]. Appl Opt, 1987, 26(9): 1668-1673.
[22] W W Macy. Two-dimensional fringe-pattern analysis[J]. Appl Opt, 1983, 22(23): 3898-3901.
[23] B Bhaduri, M P Kothiyal, N K Mohan. Curvature measurement using three-aperture digital shearography and fast Fourier transform[J]. Opt & Lasers in Eng, 2007, 45(10): 1001-1004.
[24] T W Ng, F S Chau. Automated linear shear measurements in digital shearing speckle interferometry[J]. Opt Eng, 1994, 33 (5): 1728-1729.
[27] Fang Bo. Research on Wavefront Measurement by Four-Wave Lateral Shear Interferometry Based on Phase Grating[D]. Nanjing: Nanjing University of Science and Technology, 2014: 26-27.