[1] Liang J, Williams D R, Miller D T. Supernormal vision and high-resolution retinal imaging through adaptive optics [J]. J. Opt. Soc. Am. A(S0740-3232), 1997, 14(11): 2884-2892.

[2] Gracia P D, Marcos S, Mathur A, et al. Contrast sensitivity benefit of adaptive optics correction of ocular aberrations [J]. Journal of Vision(S1534-7362), 2011, 12(5): 1-10.

[3] Elliott S L, Choi S S, Doble N, et al. Role of high-order aberrations in senescent changes in spatial vision [J]. Journal of Vision(S1534-7362), 2009, 9(2): 1-16.

[4] Guo H, Atchison D A, Birt B J. Changes in through-focus spatial visual performance with adaptive optics correction of monochromatic aberrations [J]. Vision Research(S0042-6989), 2008, 48: 1804-1811.

[5] Rossi E A, Weiser P, Tarrant J, et al. Visual performance in emmetropia and low myopia after correction of high-order aberrations [J]. Journal of Vision(S1534-7362), 2007, 8(14): 1-14.

[6] Yoon G Y, Williams D R. Visual performance after correcting the monochromatic and chromatic aberrations of the eye [J]. J. Opt. Soc. Am. A(S0740-3232), 2002, 19(2): 266-275.

[7] Dalimier E, Dainty C, Barbur J L. Effects of higher-order aberrations on contrast acuity as a function of light level [J]. Journal of Modern Optics(S1362-3044), 2008, 55(4/5): 791-803.

[8] Marcos S, Sawides L, Gambra E, et al. Influence of adaptive-optics ocular aberration correction on visual acuity at different luminances and contrast polarities [J]. Journal of Vision(S1534-7362), 2008, 8(13): 1-12.

[9] Sabesan R, Zheleznyak L, Yoon G Y. Binocular visual performance and summation after correcting higher order aberrations [J]. Biomedical Optics Express(S2156-7085), 2012, 3(12): 3176-3189.

[10] Fernández E J, Prieto P M, Artal P. Binocular adaptive optics visual simulator [J]. Optics Letters(S0146-9592), 2009, 34(17): 2628-2630.

[11] Schwarz C, Prieto P M, Fernandez E J, et al. Binocular adaptive optics vision analyzer with full control over the complex pupil functions [J]. OPTICS LETTERS(S0146-9592), 2011, 36(24): 4779-4781.

[12] Fernández E J, Prieto P M, Artal P. Adaptive optics binocular visual simulator to study stereopsis in the presence of aberrations [J]. J. Opt. Soc. Am. A(S0740-3232), 2010, 27(11): 48-55.

[13] Dubinina A, Cherezovaa T, Belyakovb A, et al. Human retina imaging: widening of high resolution area [J]. Journal of Modern Optics(S1362-3044), 2008, 55(4-5): 671-681.

[14] Levitt H. Transformed up-down methods in psychoacoustics [J]. J. Acoust. Soc. Am(S0001-4966), 1971, 49(2): 467-477.

[15] Coletta N J, Sharma V. Effects of luminance and spatial noise on interferometric contrast sensitivity [J]. J. Opt. Soc. Am. A(S0740-3232), 1995, 12(10): 2244-2251.

[16] Baker D H, Meese T S, Mansouri B, et al. Binocular summation of contrast remains intact in strabismic amblyopia [J]. Invest Ophthalmol Vis Sci(S1552-5783), 2007, 48(11): 5332-5338.

[17] Rose D, Blake R, Halpern D L. Disparity Range For Binocular Summation [J]. Invest Ophthalmol Vis Sci(S1552-5783), 1988, 29(2): 283-290.

[18] Pardhan S. Binocular recognition summation in the peripheral visual field: contrast and orientation dependence [J]. Vision Research(S0042-6989), 2003, 43(11): 1249-1255.

[19] Bearse M A, Freeman R D. Binocular summation in orientation discrimination depends on stimulus contrast and duration [J]. Vision Research(S0042-6989), 1994, 34(1): 19-29.

[20] BantonT, Levi D M. Binocular summation in vernier acuity [J]. J. Opt. Soc. Am. A(S0740-3232), 1991, 8(4): 673-680.

[21] Jiménez J R, Villa C, Anera R G, et al. Binocular Visual Performance After LASIK [J]. Journal of Refractive Surgery(S1938-239), 2006, 22: 679-688.

[22] Jiménez J R, Castro J J, Jiménez R, et al. Interocular Differences in Higher-Order Aberrations on Binocular Visual Performance [J]. Optometry and Vision Science(S1538-9235), 2008, 85(3): 174-179.

[23] Porter J, Guirao A, Cox I G, et al. Monochromatic aberrations of the human eye in a large population [J]. J. Opt. Soc. Am. A(S0740-3232), 2001, 18(8): 1793-1808.