V. Bagini, Propagation of axially symmetric flattened Gaussian beams, Journal of the Optical Society of America A, vol.13, issue.7, p.1385, 1996.

X. Baillard, Interference-filter-stabilized external-cavity diode lasers, Optics Communications, vol.266, issue.2, pp.609-613, 2006.

D. Becker, Space-borne Bose-Einstein condensation for precision interferometry, Nature, vol.562, pp.391-395, 2018.

P. A. Bélanger, Beam propagation and the ABCD ray matrices, Optics Letters, vol.16, issue.4, p.196, 1991.

B. Sébastien, Tests fondamentaux à l'aide d'horloges à atomes froids de rubidium et de césium. Theses, 2001.

G. C. Bjorklund, Frequency modulation (FM) spectroscopy, Applied Physics B Photophysics and Laser Chemistry, vol.32, issue.3, pp.145-152, 1983.

B. Mihai, O. Kogan, and C. Yanbei, Optimal light beams and mirror shapes for future LIGO interferometers, Physical Review D, vol.78, issue.8, p.82002, 2008.

R. Bonnand, Upper-limit on the Advanced Virgo output mode cleaner cavity length noise, Classical and Quantum Gravity, vol.34, p.175002

B. Riccardo, Elegant Laguerre-Gauss beams as a new tool for describing axisymmetric flattened Gaussian beams, Journal of the Optical Society of America A, vol.18, issue.7, p.1627

B. Rym, New Determination of the Fine Structure Constant and Test of the Quantum Electrodynamics, Physical Review Letters, vol.106, p.80801, 2011.

M. Bondarescu and K. S. Thorne, New family of light beams and mirror shapes for future LIGO interferometers, Physical Review D, vol.74, issue.8, p.82003, 2006.

M. Büchner, Diffraction phases in atom interferometers, Physical Review A, vol.68, issue.1, p.13607, 2003.

B. Canuel, Exploring gravity with the MIGA large scale atom interferometer, Scientific Reports, vol.8, issue.1, p.14064
URL : https://hal.archives-ouvertes.fr/hal-01874243

C. Sie-poon, Transformation of Gaussian to coherent uniform beams by inverse-Gaussian transmittive filters, Appl. Opt, vol.37, pp.747-752, 1998.

P. Cheinet, Measurement of the Sensitivity Function in a Time-Domain Atomic Interferometer, IEEE Transactions on Instrumentation and Measurement, vol.57, issue.6, pp.1141-1148, 2008.

P. Cheinet, Conception and realisation of a cold atom gravimeter. Theses. Université Pierre et Marie Curie -Paris VI, 2006.
URL : https://hal.archives-ouvertes.fr/tel-00070861

J. E. Debs, Cold-atom gravimetry with a Bose-Einstein condensate, p.33610

D. Jérôme, OSCAR a Matlab based optical FFT code, Journal of Physics: Conference Series, vol.228, p.12021, 2010.

M. Dovale-Álvarez, Fundamental limitations of cavity-assisted atom interferometry, Physical Review A, vol.96, issue.5, p.53820, 2017.

R. W. Drever, Laser phase and frequency stabilization using an optical resonator, Applied Physics B Photophysics and Laser Chemistry, vol.31, issue.2, pp.97-105

A. Dunning, Composite pulses for interferometry in a thermal cold atom cloud, Physical Review A, vol.90, issue.3, p.33608

I. Dutta, Continuous Cold-Atom Inertial Sensor with1 nrad/secRotation Stability, Physical Review Letters, vol.116, p.183003, 2016.

M. Fatih, M. Et-haldun, and . Ozaktas, Accumulated Gouy phase shift in Gaussian beam propagation through first-order optical systems, Journal of the Optical Society of America A, vol.14, issue.9, p.2190, 1997.

F. Bess, Improving the phase response of an atom interferometer by means of temporal pulse shaping, New Journal of Physics, vol.20, p.23020

U. Fano, Description of States in Quantum Mechanics by Density Matrix and Operator Techniques, Reviews of Modern Physics, vol.29, issue.1, pp.74-93, 1957.

F. Donatella, H. Ali, and C. Walid, Telescope-based cavity for negative ion beam neutralization in future fusion reactors, Applied Optics, vol.57, p.122, 2018.

J. Fils, Influence of optical aberrations in an atomic gyroscope, The European Physical Journal D, vol.36, issue.3, pp.257-260, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00005869

, Finesse software, 2018.

J. B. Fixler, Atom Interferometer Measurement of the Newtonian Constant of Gravity. Science, vol.315, pp.74-77, 2007.

C. Freier, Mobile quantum gravity sensor with unprecedented stability, Journal of Physics: Conference Series, vol.723, p.12050, 2016.
DOI : 10.1088/1742-6596/723/1/012050
URL : http://iopscience.iop.org/article/10.1088/1742-6596/723/1/012050/pdf

, Nicolas FRESSENGEAS. Gaussian Beams. DEA. Lecture, 2012.

B. Roy, Lossless Conversion of a Plane Laser Wave to a Plane Wave of Uniform Irradiance, Appl. Opt, vol.4, issue.11, pp.1400-1403, 1965.

A. Gauguet, Off-resonant Raman transition impact in an atom interferometer, Physical Review A, vol.78, issue.4, p.43615, 2008.
DOI : 10.1103/physreva.78.043615
URL : http://arxiv.org/pdf/0809.0149

F. Gori, Flattened gaussian beams, Optics Communications, vol.107, pp.335-341, 1994.
DOI : 10.1016/0030-4018(94)90342-5

J. Le, Limits to the sensitivity of a low noise compact atomic gravimeter, Applied Physics B, vol.92, issue.2, pp.133-144, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00203007

H. Paul, Atom Interferometry in an Optical Cavity, Physical Review Letters, vol.114, p.100405, 2015.

, LCOS-SLM configuration, 2018.

H. Philipp, Attractive force on atoms due to blackbody radiation, Nature Physics, vol.14, issue.3, pp.257-260

J. A. Hoffnagle, C. Michael, and J. , Design and performance of a refractive optical system that converts a Gaussian to a flattop beam, Appl. Opt, vol.39, pp.5488-5499, 2000.

J. M. Hogan, An atomic gravitational wave interferometric sensor in low earth orbit (AGIS-LEO), General Relativity and Gravitation, vol.43, issue.7, pp.1953-2009, 2011.
DOI : 10.1007/s10714-011-1182-x
URL : https://hal.archives-ouvertes.fr/hal-00517602

X. Bibliographie,

. Zhong-kun and . Hu, Demonstration of an ultrahigh-sensitivity atom-interferometry absolute gravimeter, Physical Review A, vol.88, issue.4, p.43610, 2013.

J. Aasi, Advanced LIGO. Classical and Quantum Gravity, vol.32, p.74001, 2015.

J. Matt, Testing sub-gravitational forces on atoms from a miniature in-vacuum source mass, Nature Physics, vol.13, pp.938-942

K. Walter and . Kahn, Unstable Optical Resonators, Applied Optics, vol.5, p.407, 1966.

J. Jeffrey, R. L. Kasinski, and . Burnham, Near-diffraction-limited laser beam shaping with diamond-turned aspheric optics, Opt. Lett, vol.22, pp.1062-1064, 1997.

J. Kreuzer, Coherent light optical system yielding an output beam of desired intensity distribution at a desired equiphase surface, 1965.

H. Kogelnik and T. Li, Laser Beams and Resonators, Applied Optics, vol.5, p.1550, 1966.

T. Kovachy, Quantum superposition at the half-metre scale, Nature, vol.528, pp.530-533

K. Tim, Matter Wave Lensing to Picokelvin Temperatures, Physical Review Letters, vol.114, p.143004

K. Tomasz, Numerical errors of diffraction computing using plane wave spectrum decomposition, Optics Communications, vol.281, pp.4219-4223, 2008.

M. Langlois, Differential phase extraction in dual interferometers exploiting the correlation between classical and quantum sensors, Physical Review A, vol.96, issue.5, p.53624, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01655416

T. Lévèque, Enhancing the Area of a Raman Atom Interferometer Using a Versatile Double-Diffraction Technique, Physical Review Letters, vol.103, p.80405, 2009.

H. Malcolm and . Levitt, Composite pulses. Progress in Nuclear Magnetic Resonance Spectroscopy 18, pp.61-122, 1986.

L. I. Jiangning, Imaging-based amplitude laser beam shaping for material processing by 2D reflectivity tuning of a spatial light modulator, Applied Optics, vol.55, p.1095, 2016.

L. Jinyang, 15% root-mean-square flat-intensity laser beam formed using a binary-amplitude spatial light modulator, Applied Optics, vol.48, p.1955, 2009.

A. Louchet-chauvet, The influence of transverse motion within an atomic gravimeter, New Journal of Physics, vol.13, issue.6, p.65025, 2011.

L. Yukun, Contrast enhancement via shaped Raman pulses for thermal cold atom cloud interferometry. The European Physical, p.262

M. A. Haotong, Generation of flat-top beam with phase-only liquid crystal spatial light modulators, Journal of Optics, vol.12, p.45704, 2010.

M. A. Haotong, Near-diffraction-limited annular flattop beam shaping with dual phase only liquid crystal spatial light modulators, Optics Express, vol.18, p.8251

M. A. Haotong, Improvement of Galilean refractive beam shaping system for accurately generating near-diffraction-limited flattop beam with arbitrary beam size, Optics Express, vol.19, p.13105, 2011.

T. Mazzoni, Large-momentum-transfer Bragg interferometer with strontium atoms, Physical Review A, vol.92, issue.5, p.53619, 2015.

M. Holger, C. Sheng-wey, and C. Steven, Atom-wave diffraction between the Raman-Nath and the Bragg regime: Effective Rabi frequency, losses, and phase shifts, Physical Review A, vol.77, issue.2, p.23609, 2008.

M. Vittorio, C. Giulio, S. De, and S. , High-accuracy fast Hankel transform for optical beam propagation, Journal of the Optical Society of America A, vol.9, issue.11, p.2031, 1992.

N. Mccarthy and L. Pierre, Large-size Gaussian mode in unstable resonators using Gaussian mirrors, Optics Letters, vol.10, issue.11, p.553, 1985.

M. Kathryn, Theoretical analysis of velocity-selective Raman transitions, Physical Review A, vol.45, issue.1, pp.342-348, 1992.

M. Holger, Atom Interferometry with up to 24-Photon-Momentum-Transfer Beam Splitters, Physical Review Letters, vol.100, p.180405, 2008.

O. Satoru, Angular spectrum calculations for arbitrary focal length with a scaled convolution, Optics Express, vol.19, p.14268, 2011.

P. Vishwa, Generating flat-top beams with extended depth of focus, Appl. Opt, vol.57, pp.4583-4589, 2018.

C. Palma and V. Bagini, Propagation of super-Gaussian beams. Optics Communications 111.1-2 (sept. 1994), pp.6-10

P. Achim, K. Yeow, C. Et-steven, and C. , Measurement of gravitational acceleration by dropping atoms, Nature, vol.400, pp.849-852, 1999.

T. Pritchett, Fast Hankel Transform Algorithms for Optical Beam Propagation. ADa397 940. army research lab adelphi md, 2001.

M. Quintanilla and A. M. Frutos, Holographic filter that transforms a Gaussian into a uniform beam, Appl. Opt, vol.20, issue.5, pp.879-880, 1981.

L. A. Romero and F. M. Dickey, Lossless laser beam shaping, J. Opt. Soc. Am. A, vol.13, issue.4, pp.751-760, 1996.

I. Riou, A marginally stable optical resonator for enhanced atom interferometry, Journal of Physics B: Atomic, Molecular and Optical Physics, vol.50, p.155002
URL : https://hal.archives-ouvertes.fr/hal-01427691

R. André, Modified shifted angular spectrum method for numerical propagation at reduced spatial sampling rates, Optics Express, vol.22, p.26265, 2014.

G. Rosi, Precision measurement of the Newtonian gravitational constant using cold atoms, Nature, vol.510, pp.518-521, 2014.

W. Patrick, D. L. Rhodes, and . Shealy, Refractive optical systems for irradiance redistribution of collimated radiation: their design and analysis, Appl. Opt, vol.19, pp.3545-3553, 1980.

S. Denis, Fonctionnement continu et entrelacé d'un gyromètre à atomes froids et amélioration de sa stabilité, 2017.

D. Schlippert, Quantum Test of the Universality of Free Fall, Physical Review Letters, vol.112, p.203002, 2014.

L. David, J. A. Shealy, and . Hoffnagle, Laser beam shaping profiles and propagation, Applied Optics, vol.45, p.5118, 2006.

A. E. Siegman, Unstable Optical Resonators, Applied Optics, vol.13, p.353, 1974.

S. Mert and K. Hulya, Optical beam-shaping design based on aspherical lenses for circularization, collimation, and expansion of elliptical laser beams, Appl. Opt, vol.47, issue.2, pp.230-241, 2008.

F. Sorrentino, Sensitivity limits of a Raman atom interferometer as a gravity gradiometer, Physical Review A, vol.89, issue.2, p.23607, 2014.

A. Danel and . Steck, Cesium D Line Data, 2010.

A. Danel and . Steck, Rubidium D Line Data, 2015.

X. Bibliographie,

J. K. Stockton, K. Takase, and M. A. Kasevich, Absolute Geodetic Rotation Measurement Using Atom Interferometry, Physical Review Letters, vol.107, p.133001
DOI : 10.1103/physrevlett.107.133001
URL : https://link.aps.org/accepted/10.1103/PhysRevLett.107.133001

T. Xin, Diffractive phase elements for beam shaping: a new design method, Applied Optics, vol.34, p.1314, 1995.

C. Cohen and T. , Cours d'Interférométrie Atomique, 1992.

M. G. Tarallo, Test of Einstein Equivalence Principle for 0-Spin and Half-IntegerSpin Atoms: Search for Spin-Gravity Coupling Effects, Physical Review Letters, vol.113, issue.2, p.23005, 2014.

A. A. Tovar and L. W. Casperson, Generalized beam matrices: Gaussian beam propagation in misaligned complex optical systems, Journal of the Optical Society of America A, vol.12, issue.7, p.1522, 1995.
DOI : 10.1364/josaa.12.001522

T. Philipp, K. Yeow, C. Et-steven, and C. , High-brightness atom source for atomic fountains, Physical Review A, vol.63, issue.5, p.51401

T. Cheng-mu, Y. Fang, and L. Chia-te, Application of genetic algorithm on optimization of laser beam shaping, Optics Express, vol.23, p.15877, 2015.

T. Mitsuo, I. Hideki, and K. Seiji, Fourier-transform method of fringepattern analysis for computer-based topography and interferometry, Journal of the Optical Society of America, vol.72, p.156, 1982.

A. Trimeche, Active Control of Laser Wavefronts in Atom Interferometers, Physical Review Applied, vol.7, issue.3, p.34016
URL : https://hal.archives-ouvertes.fr/hal-01511405

V. Gabriele, Fast modal simulation of paraxial optical systems: the MIST open source toolbox. Classical and Quantum Gravity, vol.30, p.75014, 2013.

L. M. Vandersypen and I. L. Chuang, NMR techniques for quantum control and computation, Reviews of Modern Physics, vol.76, pp.1037-1069, 2005.
DOI : 10.1103/revmodphys.76.1037
URL : https://repository.tudelft.nl/islandora/object/uuid%3A2a2fe9aa-9ecd-4f71-8bf4-1ef0bff8cd84/datastream/OBJ/download

D. S. Weiss, B. C. Young, and S. Chu, Precision measurement of h/m Cs based on photon recoil using laser-cooled atoms and atomic interferometry, pp.217-256
DOI : 10.1007/bf01081393

D. Zhang, Fast Hankel transform and its application for studying the propagation of cylindrical electromagnetic fields, Optics Express, vol.10, p.521, 2002.