C. Foot, «Laser cooling and trapping of atoms», Contemporary Physics, pp.369-381, 1991.

G. , J. Et, and A. Ashkin, «Motion of atoms in a radiation trap», Physical Review A, vol.21, issue.5, pp.1606-1635, 1980.

G. , D. , G. Jotzu, M. Messer, R. Desbuquois et al., 2015, «Formation and dynamics of anti-ferromagnetic correlations in tunable optical lattices», arXiv preprint

G. , D. , T. Uehlinger, G. Jotzu, L. Tarruell et al., 2013, «Short-range quantum magnetism of ultracold fermions in an optical lattice», Science, vol.340, pp.6138-1307

H. , T. W. Et, and A. L. Schawlow, «Cooling of gases by laser radiation», Optics Communications, vol.13, issue.14, pp.68-69, 1975.

H. , D. , J. Mcguirk, J. Obrecht, and E. Cornell, «Thermally induced losses in ultra-cold atoms magnetically trapped near room-temperature surfaces», Journal of low temperature physics, vol.133, pp.3-4, 2003.

H. , C. , S. Pötting, and M. Wilkens, «Loss and heating of particles in small and noisy traps», Applied Physics B, vol.69, pp.5-6, 1999.

H. , C. , X. Zhang, N. Gemelke, and C. C. , «Accelerating evaporative cooling of atoms into bose-einstein condensation in optical traps», Physical Review A, vol.78, issue.1, pp.11-604, 2008.

K. , M. Et, and S. C. , «Laser cooling below a photon recoil with three-level atoms», Physical review letters, pp.12-1741, 1992.

K. , W. , K. B. Davis, M. A. Joffe, A. Martin et al., «High densities of cold atoms in a dark spontaneous-force optical trap», Physical review letters, pp.15-2253, 1993.

K. , W. Et, N. Van, and . Druten, «Evaporative cooling of trapped atoms» Advances in atomic, molecular, and optical physics, pp.181-215, 1996.

L. , P. D. , R. N. Watts, C. I. Westbrook, W. D. Phillips et al., «Observation of atoms laser cooled below the doppler limit», Physical Review Letters, vol.61, issue.18, pp.169-188, 1988.

W. , F. , O. Parcollet, A. Georges, and S. Hassan, «Interaction-induced adiabatic cooling and antiferromagnetism of cold fermions in optical lattices», Physical review letters, pp.56-401, 2005.

Z. , J. , T. Palasz, and W. Gawlik, «Magneto-optical trap for rubidium atoms», Optica Applicata, vol.28, pp.239-248, 1998.

.. Prévisions-sur-la-performance-du-système, Nombre de photons détectables et rapport signal à bruit, p.148

A. , B. , M. S. Safronova, and C. W. Clark, «Magic wavelengths for the np-ns transitions in alkali-metal atoms», Phys. Rev. A, vol.76, 2007.

B. , W. S. , J. I. Gillen, A. Peng, S. Fölling et al., «A quantum gas microscope for detecting single atoms in a hubbard-regime optical lattice», Nature, vol.462, pp.7269-74, 2009.

B. , W. S. , A. Peng, M. E. Tai, R. Ma et al., «Probing the superfluid?to?mott insulator transition at the singleatom level», Science, vol.329, pp.5991-547, 2010.

B. , L. , P. Starkey, M. Jasperse, C. Billington et al., «A versatile high resolution objective for imaging quantum gases», Optics express, vol.21, issue.7, pp.9011-9016, 2013.

D. , J. Et, and C. Cohen-tannoudji, «Dressed-atom approach to atomic motion in laser light : the dipole force revisited», JOSA B, vol.2, issue.11, pp.1707-1720, 1985.

E. , G. J. , R. Anderson, D. Jervis, D. C. Mckay et al., «Imaging and addressing of individual fermionic atoms in an optical lattice»

C. 3. Imagerie-sub-longueur-d-'onde, R. Grimm, M. Weidemüller, and Y. B. Ovchinnikov, «Optical dipole traps for neutral atoms», Advances in atomic, molecular, and optical physics, vol.42, issue.117, pp.95-170, 2000.

H. , E. , J. Hudson, A. Kelly, D. A. Cotta et al., «Single-atom imaging of fermions in a quantum-gas microscope», arXiv preprint, 2015.

H. , S. W. Et, and M. K. , «Ground-state-depletion fluorscence microscopy : A concept for breaking the diffraction resolution limit», Applied Physics B, vol.60, issue.5, pp.495-497, 1995.

H. , S. W. Et, and J. Wichmann, «Breaking the diffraction resolution limit by stimulated emission : stimulated-emission-depletion fluorescence microscopy», Optics letters, vol.19, issue.11, pp.780-782, 1994.

H. , S. T. , T. P. Girirajan, and M. D. Mason, «Ultra-high resolution imaging by fluorescence photoactivation localization microscopy», Biophysical journal, vol.91, issue.11, pp.4258-4272, 2006.

M. F. Parsons, A. M. , -. S. , F. Huber, and M. Greiner, 2015, «Site-resolved imaging of fermionic 6li in an optical lattice greiner»

O. , A. , M. Boll, T. Hilker, K. Kleinlein et al., 2015, «Microscopic observation of pauli blocking in degenerate fermionic lattice gases», arXiv preprint

R. , M. J. , M. Bates, and X. Zhuang, «Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (storm)», Nature methods, pp.793-796, 2006.

S. , J. F. , C. Weitenberg, M. Endres, M. Cheneau et al., «Single-atom-resolved fluorescence imaging of an atomic mott insulator», Nature, vol.467, issue.7311, pp.68-72, 2010.

S. , J. , W. S. Bakr, R. Ma, M. E. Tai et al., «Quantum simulation of antiferromagnetic spin chains in an optical lattice», Nature, vol.472, pp.7343-307, 2011.

W. , T. Et, and C. Sheppard, Theory and practice of scanning optical microscopy, p.112, 1984.

W. , S. L. , M. T. Depue, N. E. Bramall, and D. S. Weiss, «Laser cooling at high density in deep far-detuned optical lattices», Physical Review A, vol.59, issue.1, pp.19-153, 1999.

Z. , B. , J. Zerubia, and J. Olivo-marin, «Gaussian approximations of fluorescence microscope point-spread function models», Applied Optics, vol.46, issue.10, pp.1819-1829, 2007.