BIBLIOGRAPHY [102] R.H. Hudgin. Wave-front reconstruction for compensated imaging. J. Opt. Soc. Am., 67(3):375–378, 1977. [103] D.L. Fried. Least-square fitting a wave-front distortion estimate to an array of phase-difference measurements. J. Opt. Soc. Am., 67(3):370–375, 1977. [104] W.H. Southwell. Wave-front estimation from wave-front slope measurements. J. Opt. Soc. Am., 1980. [105] E. Anderson, Z. Bai, C. Bischof, S. Blackford, J. Demmel, J. Dongarra, J. Du Croz, A. Greenbaum, S. Hammarling, A. McKenney, and D. Sorensen. LAPACK Users’ Guide. Society for Industrial and Applied Mathematics, Philadelphia, PA, third edition, 1999. [106] Klaus R. Freischlad and Chris L. Koliopoulos. Modal estimation of a wave front from difference measurements using the discrete Fourier transform. J. Opt. Soc. Am. A, 3(11):1852–1861, 1986. [107] François Roddier and Claude Roddier. Wavefront reconstruction using iterative Fourier transforms. App. Opt., 30(11):1325–1327, 1991. [108] Clemens Elster and I. Weingärtner. Exact wave-front reconstruction from two lateral shearing interferograms. J. Opt. Soc. Am. A, 16(9):2281–2285, 1999. [109] Clemens Elster and Ingolf Weingärtner. Solution to the shearing problem. App. Opt., 38(23):5024–5031, 1999. [110] Clemens Elster. Exact two-dimensional wave-front reconstruction from lateral shearing interferograms with large shears. App. Opt., 39(29):5353–5359, 2000. [111] Lisa A. Poyneer, Donald T. Gavel, and James M. Brase. Fast wave-front reconstruction in large adaptive optics systems with use of the Fourier transform. J. Opt. Soc. Am. A, 19(10):2100–2111, 2002. [112] Alan V. Oppenheim and Ronald W. Schafer. Digital Signal Processing. Prentice- Hall, Inc., Englewood Cliffs, New Jersey 07632, 1975. [113] Dan Z. Reinstein. Consultation Section. J. Ref. Surg., 27(9), 2001. [114] Austin Roorda. Associate professor, university of houston, college of optometry, houston tx 77204-2020, US. Personal communication. 2002. 135
BIBLIOGRAPHY [115] Frangois C. Delori and Kent P. Pflibsen. Spectral reflectance of the human ocular fundus. App. Opt., 28(6):1061–1077, 1989. [116] Luis Diaz-Santana. Wavefront Sensing in the Human Eye with a ShackHartmann Sensor. <strong>PhD</strong> <strong>thesis</strong>, <strong>Imperial</strong> <strong>College</strong> of Science, Technology and Medicine, University of <strong>London</strong>, 2000. [117] L.N. Thibos, R.A. Applegate, J.T. Schwiegerling, R. Webb, and VSIA Standards Taskforce Members. Standards for reporting the optical aberrations of eyes. 2000. [118] Gijsbertus Johannes Van Blokland. The optics of the human eye studied with respect to polarized light. <strong>PhD</strong> <strong>thesis</strong>, Rijksuniversiteit Utrecht, 1986. 136