, La fonction de transfert optique est toujours la transformée de Fourier de la PSF. D'après le théorème de Wiener-Khintchine, la FTO est donc l'autocorrélation de la pupille : FTO incohérent = F |F

. Robert-w-rodieck, W. Robert, and . Rodieck, The first steps in seeing, Sinauer Associates Sunderland, vol.1, 1998.

, Imène Salah-Mabed : Anatomical and methodological descriptions leading to optimize corneal refractive surgery procedures, 2018.

S. A. Hussain, F. Alahyane, C. Crotti, Z. Essaïdi, L. Kowalczuk et al., Cell viability in the endothelium of porcine cornea exposed to ultrashort laser pulses, 2015 International Conference on BioPhotonics (BioPhotonics), pp.1-3, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01761382

P. Gain, G. Thuret, L. Kodjikian, Y. Gavet, P. H. Turc et al., Automated tri-image analysis of stored corneal endothelium, British Journal of Ophthalmology, vol.86, issue.7, pp.801-808, 2002.

G. Thuret, C. Manissolle, S. Acquart, O. Garraud, L. Campos-guyotat et al., Urgent Need for Normalization of Corneal Graft Quality Controls in French Eye Banks, Transplantation, vol.78, issue.9, p.1299, 2004.

D. M. Maurice, The structure and transparency of the cornea, J. Physiol, vol.136, pp.263-286, 1957.

A. Vogel-et-vasan and . Venugopalan, Mechanisms of pulsed laser ablation of biological tissues, Chemical Reviews, vol.103, issue.2, pp.577-644, 2003.

T. Feuk, On the transparency of the stroma in the mammalian cornea, IEEE Transactions on Biomedical Engineering, issue.3, pp.186-190, 1970.

R. Hart and . Farrell, Light scattering in the cornea, Journal of the Optical Society of America, vol.59, issue.6, pp.766-774, 1969.

G. B. , Benedek : Theory of Transparency of the Eye, Applied Optics, vol.10, issue.3, pp.459-473, 1971.

V. Twersky, Transparency of pair-correlated, random distributions of small scatterers, with applications to the cornea, J Opt Soc Am, vol.65, issue.5, pp.524-530, 1975.

K. M. Meek, D. W. Leonard, C. J. Connon, S. Dennis, and S. Khan, Transparency, swelling and scarring in the corneal stroma, vol.927, 2003.

X. Cheng, M. Peter, and . Pinsky, Mechanisms of self-organization for the collagen fibril lattice in the human cornea, Journal of the Royal Society Interface, vol.10, issue.87, 2013.

X. Cheng, M. Peter, and . Pinsky, The balance of fluid and osmotic pressures across active biological membranes with application to the corneal endothelium, PLoS ONE, vol.10, issue.12, 2015.

X. Cheng, J. Steven, . Petsche, M. Peter, and . Pinsky, A structural model for the in vivo human cornea including collagen-swelling interaction, Journal of the Royal Society, Interface, vol.12, issue.109, p.20150241, 2015.

. K-plamann, C. Aptel, . Arnold, C. Courjaud, . Crotti et al., Ultrashort pulse laser surgery of the cornea and the sclera, Journal of Optics, vol.12, p.84002, 2010.

R. Richard-o-prum and . Torres, Structural colouration of avian skin : convergent evolution of coherently scattering dermal collagen arrays, Journal of Experimental Biology, vol.206, issue.14, pp.2409-2429, 2003.

R. O. Prum, Structural colouration of mammalian skin : convergent evolution of coherently scattering dermal collagen arrays, Journal of Experimental Biology, vol.207, issue.12, pp.2157-2172, 2004.

T. J. Van-den, L. Berg, J. E. Franssen, and . Coppens, Ocular media clarity and straylight. Encyclopedia of Eye, vol.3, pp.173-183, 2010.

N. Virendra and . Mahajan, Strehl ratio for primary aberrations : some analytical results for circular and annular pupils, Journal of the Optical Society of America, vol.72, issue.9, p.1258, 1982.

M. John-p-whitcher, . Srinivasan, P. Madan, and . Upadhyay, Corneal blindness : a global perspective, Bulletin of the world health organization, vol.79, pp.214-221, 2001.

P. Gain, R. Jullienne, and Z. He, Mansour Aldossary, Sophie Acquart, Fabrice Cognasse et Gilles Thuret : Global Survey of Corneal Transplantation and Eye Banking, JAMA Ophthalmology, vol.134, issue.2, pp.167-173, 2016.

P. Garg, . Krishna, . Stratis, and . Gopinathan, The value of corneal transplantation in reducing blindness, Eye, vol.19, issue.10, p.1106, 2005.

. World-health-organization, Action plan for the prevention of avoidable blindness and visual impairment, 2009.

S. Richard-e-braunstein, . Jain, L. Russell, . Mccally, J. Walter et al., Objective measurement of corneal light scattering after excimer laser keratectomy, Ophthalmology, vol.103, issue.3, pp.439-443, 1996.

F. E. Fantes, D. Khalil, G. O. Hanna, Y. Waring, K. P. Pouliquen et al., Wound Healing After Excimer Laser Keratomileusis (Photorefractive Keratectomy) in Monkeys, Archives of Ophthalmology, vol.108, issue.5, pp.665-675, 1990.

O. Clare, . Donnell, and . James-s-wolffsohn, Grading of corneal transparency, Contact Lens and Anterior Eye, vol.27, issue.4, pp.161-170, 2004.

G. T. Chris-p-lohmann, F. W. Timberlake, . Fitzke, S. David, M. Gartry et al., Corneal light scattering after excimer laser photorefractive keratectomy : the objective measurements of haze, Journal of Refractive Surgery, vol.8, issue.2, pp.114-121, 1992.

C. Van-de-pol, K. Soya, G. David, and . Hwang, Objective assessment of transient corneal haze and its relation to visual performance after photorefractive keratectomy, American journal of ophthalmology, vol.132, issue.2, pp.204-210, 2001.

P. Pisella, O. Auzerie, and Y. Bokobza, Caroline Debbasch et Christophe Baudouin : Evaluation of corneal stromal changes in vivo after laser in situ keratomileusis with confocal microscopy, Ophthalmology, vol.108, issue.10, pp.1744-1750, 2001.

J. Wang, L. Trefford, D. Simpson, and . Fonn, Objective measurements of corneal light-backscatter during corneal swelling, by optical coherence tomography, vestigative ophthalmology & visual science, vol.45, pp.3493-3498, 2004.

M. Gil, S. Soare, G. Georges, L. Siozade-lamoine, M. Gonzalvez et al., Gaëlle Ho Wang Yin et Carole Deumie : Detection of fine modifications in bulk corneal grafts based on backscattered light quantification, Optics Communications, vol.434, pp.246-252, 2019.

A. Edward, R. Boettner, and . Wolter, Transmission of the ocular media. Investigative Ophthalmology, vol.1, 1962.

C. Crotti, F. Deloison, F. Alahyane, F. Aptel, L. Kowalczuk et al., Wavelength optimization in femtosecond laser corneal surgery. Investigative Ophthalmology and Visual Science, vol.54, pp.3340-3349, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01166752

F. J-i-prydal, P. Franc, M. Dilly, M. Muir, . Corbett et al., Keratocyte density and size in conscious humans by digital image analysis of confocal images, Eye, pp.337-379, 1998.

S. Patel, . Mclaren, . Hodge, and . Bourne, Normal human keratocyte density and corneal thickness measurement by using confocal microscopy in vivo, Investigative ophthalmology & visual science, vol.42, issue.2, pp.333-339, 2001.

J. Steven, N. Gardner, J. White, C. Albon, C. S. Knupp et al., Measuring the refractive index of bovine corneal stromal cells using quantitative phase imaging, Biophysical journal, vol.109, issue.8, pp.1592-1599, 2015.

D. H. Napper, A diffraction theory approach to the total scattering by cubes. Kolloid-Zeitschrift und Zeitschrift für Polymere, vol.218, pp.41-46, 1967.

K. M. Meek, S. Dennis, and S. Khan, Changes in the refractive index of the stroma and its extrafibrillar matrix when the cornea swells, Biophysical Journal, vol.85, issue.4, pp.2205-2212, 2003.

R. Schiffer and K. O. Thielheim, Light scattering by dielectric needles and disks, Journal of Applied Physics, vol.50, issue.4, pp.2476-2483, 1979.

F. R. Lord-rayleigh, On the electromagnetic theory of light. The London, Edinburgh, and Dublin Philosophical Magazine, Journal of Science, vol.12, issue.73, pp.81-101

G. Mie, Beiträge zur optik trüber medien, speziell kolloidaler metallösungen. Annalen der Physik, vol.330, pp.377-445, 1908.

A. Donald and . Mcquarrie, Statistical mechanics. Harper & Row, p.1529460, 1975.

Y. Huang, M. Keith, and . Meek, Swelling studies on the cornea and sclera : The effects of ph and ionic strength, Biophysical Journal, vol.77, issue.3, pp.1655-1665, 1999.

C. Hahnel, S. Somodi, D. Weiss, and R. Guthoff, The keratocyte network of human cornea : A three-dimensional study using confocal laser scanning fluorescence microscopy, Cornea, vol.19, issue.2, pp.185-193, 2000.

X. Guo and U. Riebel, Theoretical direct correlation function for two-dimensional fluids of monodisperse hard spheres, The Journal of Chemical Physics, vol.125, issue.14, p.144504, 2006.

J. K. Percus and G. J. Yevick, Analysis of classical statistical mechanics by means of collectivecoordinates, Physical Review, vol.110, issue.1, pp.1-13, 1958.

Y. Song, . Mason, M. Richard, and . Stratt, Why does the carnahan-starling equation work so well ?, The Journal of Physical Chemistry, vol.93, issue.19, pp.6916-6919, 1989.

C. Barrio and J. R. Solana, Contact pair correlation functions and equation of state for additive hard disk fluid mixtures, The Journal of Chemical Physics, vol.115, issue.15, pp.7123-7129, 2001.

M. Baus and J. L. Colot, Thermodynamics and structure of a fluid of hard rods, disks, spheres, or hyperspheres from rescaled virial expansions, Physical Review A, vol.36, issue.8, pp.3912-3925, 1987.

J. J. Erpenbeck and M. Luban, Equation of state of the classical hard-disk fluid, Phys. Rev. A, vol.32, pp.2920-2922, 1985.

T. Olsen and S. Sperling, The swelling pressure of the human corneal stroma as determined by a new method, Experimental Eye Research, vol.44, issue.4, pp.481-490, 1987.

D. Huang, E. A. Swanson, C. P. Lin, J. S. Schuman, W. G. Stinson et al., Optical coherence tomography. Science, vol.254, issue.5035, pp.1178-1181, 1991.

W. Drexler and J. G. Fujimoto, Optical Coherence Tomography : Technology and Applications, 2008.

F. Johannes, R. De-boer, M. Leitgeb, and . Wojtkowski, Twenty-five years of optical coherence tomography : the paradigm shift in sensitivity and speed provided by fourier domain oct

, Biomedical Optics Express, vol.8, issue.7, p.3248, 2017.

E. Beaurepaire, A. C. Boccara, M. Lebec, and L. Blanchot, Saint-Jalmes : Full-field optical coherence microscopy, Optics Letters, vol.23, issue.4, pp.244-246, 1998.

A. Dubois, L. Vabre, A. Boccara, and E. Beaurepaire, High-resolution full-field optical coherence tomography with a linnik microscope, Applied Optics, vol.41, issue.4, pp.805-812, 2002.
URL : https://hal.archives-ouvertes.fr/hal-00627977

P. Viacheslav-mazlin, E. Xiao, K. Dalimier, K. Grieve, J. Irsch et al., In vivo high resolution human corneal imaging using full-field optical coherence tomography, Biomedical optics express, vol.9, issue.2, pp.557-568, 2018.

U. Tricoli and R. Carminati, A model for full-field optical coherence tomography in scattering media. arXiv e-prints, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02386508

B. Karamata, Multiple scattering in wide-field optical coherence tomography, 2004.

P. Xiao, A resolution insensitive to geometrical aberrations by using incoherent illumination and interference imaging, The European Physical Journal Special Topics, vol.226, pp.1603-1621, 2017.

. Joseph-w-goodman, Statistical optics, 2015.

A. Gelman, D. Lee, and J. Guo, Stan : A Probabilistic Programming Language for Bayesian Inference and Optimization, Journal of Educational and Behavioral Statistics, vol.40, issue.5, pp.530-543, 2015.

. Stan,

, The R Project for Statistical Computing

T. Park and G. Casella, The Bayesian Lasso, Journal of the American Statistical Association, vol.103, issue.482, pp.681-686, 2008.

Y. Himel-mallick-et-nengjun, A new Bayesian lasso. Statistics and Its Interface, vol.7, pp.571-582, 2014.

P. Pernot, The parameter uncertainty inflation fallacy, The Journal of Chemical Physics, vol.147, issue.10, p.104102, 2017.

P. Pernot and A. Savin, Probabilistic performance estimators for computational chemistry methods : The empirical cumulative distribution function of absolute errors, The Journal of Chemical Physics, vol.148, issue.24, p.241707, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02010898

I. Iec-bipm, I. Ifcc, O. Iso, and . Iupap, Evaluation of measurement data-guide to the expression of uncertainty in measurement (gum 1995 with minor corrections), Joint Committee for Guides in Metrology, vol.100, 2008.

K. Irsch, K. Grieve, M. Borderie, and D. Ghoubay, Cristina Georgeon et Vincent Borderie : Full-field optical coherence microscopy for histology-like analysis of stromal features in corneal grafts, J. Vis. Exp

L. Steven, B. Jacques, R. Wang, and . Samatham, Reflectance confocal microscopy of optical phantoms, Biomedical Optics Express, vol.3, issue.6, pp.1162-1172, 2012.

R. Bocheux, P. Pernot, V. Borderie, K. Plamann, and K. Irsch, Quantitative measures of corneal transparency, derived from objective analysis of depth-resolved corneal images, demonstrated with full-field optical coherence tomographic microscopy, PLOS ONE, vol.14, issue.8, pp.1-10, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02297695

D. Gabor, A new microscopic principle, 1948.

. Joseph-w-goodman, Introduction to Fourier optics, 2005.

N. Emmett, Leith et Juris Upatnieks : Reconstructed Wavefronts and Communication Theory*. JOSA, vol.52, pp.1123-1130, 1962.

N. Verrier and . Michael-atlan, Off-axis digital hologram reconstruction : some practical considerations, Applied Optics, vol.50, issue.34, p.136, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00642060

K. Myung and . Kim, Digital holographic microscopy, Digital Holographic Microscopy, pp.149-190, 2011.

U. Schnars, C. Falldorf, J. Watson, and W. Jüptner, Digital holography, Digital Holography and Wavefront Sensing, pp.39-68, 2015.

T. Tahara, Y. Ito, Y. Lee, P. Xia, J. Inoue et al., Toshihiro Kubota et Osamu Matoba : Multiwavelength parallel phase-shifting digital holography using angular multiplexing, Optics letters, vol.38, pp.2789-91, 2013.