, Les perspectives à court et moyen terme sur I.C.E sont nombreuses, et laissent entrevoir un bel avenir. En effet, il s'agit à présent de ré-installer le Potassium sur l'expérience, une nouvelle source laser entièrement fibrée étant actuellement en cours d'intégration. Tester notre méthode de chargement sur le 39 K puis le refroidir par refroidissement sympathique avec le 87 Rb, sont les prochains objectifs. A plus long terme, l'installation d'un nouveau laser destiné à réaliser des oscillations de Bloch afin d'augmenter la séparation spatiale des deux bras de l'interféromètre, est également prévue. Enfin, une étude théorique sur la formation de nouveaux objets topologiques 2D

A. , Evaporative Cooling in a Crossed Dipole Trap, Physical Review Letters, issue.18, p.74, 1995.

[. Aguilera, , p.31, 2014.

A. , Carrier frequency modulation of an acousto-optic modulator for laser stabilization, Optics Express, issue.11, p.25, 2017.

A. , Quantum Tests of the Einstein Equivalence Principle with the STE-QUEST Space Mission, Advances in Space Research, issue.1, p.55, 2015.

H. Ammann and N. Christensen, Delta Kick Cooling : A New Method for Cooling Atoms, Physical Review Letters, issue.11, p.78, 1997.

M. R. Andrews-;-andrews, Observation of Interference Between Two Bose Condensates, Science, issue.5300, p.275, 1997.

A. Antoni-micollier and L. , Interféromètre à atomes froids de 39 K et 87 Rb pour tester le principe d'équivalence en micropesanteur, 2016.

A. , Generation of high-purity lowtemperature samples of 39 K for applications in metrology, Physical Review A, vol.96, issue.2, 2017.

. Antoniadis, Millimetrerange forces in superstring theories with weak-scale compactification, Nuclear Physics B, vol.516, pp.1-2, 1998.

. Arora, Magic wavelength for the np-ns transitions in alkali-metal atoms, Physical Review A, vol.76, issue.5, 2007.

[. Bali, Quantum-diffractive background gas collisions in atom-trap heating and loss, Physical Review A, vol.60, issue.1, 1999.

[. Barrett, Dual matter-wave inertial sensors in weightlessness, Nature Communications, vol.7, issue.1, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01429804

[. Barrett, Mobile and remote inertial sensing with atom interferometers, Proceedings of the International School of Physics "Enrico Fermi" on Atom Interferometry, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00908849

[. Battelier, Development of compact cold-atom sensors for inertial navigation, Proc. SPIE, vol.9900, 2016.

K. Beloy, Theory of the ac Stark Effect on the Atomic Hyperfine Structure and Applications to Microwave Atomic Clocks, 2009.

[. Billy, Direct observation of Anderson localization of matter waves in a controlled disorder, Nature, issue.7197, p.453, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00271681

D. Boiron, Refroidissement et piégeage d'atomes de césium dans des structures lumineuses à faible taux de diffusion, 1998.

;. Bordé and C. J. Bordé, Matter-Wave Interferometers, Atom Interferometry, 1997.

[. Bouyer, Microwave signal generation with optical injection locking, Optics Letters, issue.18, p.21, 1996.

J. Brantut, Manipulation d'atomes froids dans des potentiels lumineux, 2009.
URL : https://hal.archives-ouvertes.fr/tel-00436639

[. Brantut, Light-shift tomography in an optical-dipole trap for neutral atoms, Physical Review A, vol.78, issue.3, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00303321

[. Brewer, . Hahn, R. G. Brewer, and E. L. Hahn, Coherent two-photon processes : Transient and steady-state cases, Physical Review A, vol.11, issue.5, 1975.

[. Burt, Coherence, Correlations, and Collisions : What One Learns about Bose-Einstein Condensates from Their Decay, Physical Review Letters, issue.3, p.79, 1997.

[. Carraz, Phase shift in an atom interferometer induced by the additional laser lines of a Raman laser generated by modulation, Physical Review A, vol.86, issue.3, 2012.

[. Cennini, All-Optical Realization of an Atom Laser, Physical Review Letters, issue.24, p.91, 2003.

P. Cheinet, Conception et réalisation d'un gravimètre à atomes froids, 2006.

[. Cheinet, Measurement of the sensitivity function in time-domain atomic interferometer, IEEE Transactions on Instrumentation and Measurement, issue.6, p.57, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00012411

L. Chichet, Interférométrie atomique embarquée double espèce, 87 Rb et 39 K, appliqué au test du principe d'équivalence faible et à la navigation inertielle, 2017.

[. Chin, Feshbach resonances in ultracold gases, Reviews of Modern Physics, issue.2, p.82, 2010.

S. Chu-;-chu, The manipulation of neutral particles, Rev. Mod. Phys, vol.70, issue.3, 1998.

[. Chu, Experimental Observation of Optically Trapped Atoms, Physical Review Letters, vol.57, issue.3, 1986.

[. Clairon, Ramsey Resonance in a Zacharias Fountain, EuroPhysics Letters, issue.2, p.16, 1991.

J. Clément, Réalisation d'un condensat de Bose-Einstein dans un piège dipolaire optique à 1565 nm, 2008.

. Cohen-tannoudji-;-cohen-tannoudji, Atomes ultrafroids -piégeage non dissipatif et refroidissement évaporatif, 1996.

. Cohen-tannoudji, Avancées en physique atomique : du pompage optique aux gaz quantiques. Hermann, 2016.

A. Couvert-;-couvert, Production et étude de lasers à atomes guidés, et de leur interaction avec des défauts contrôlés, 2009.

[. Couvert, A quasi-monomode guided atom laser from an all-optical Bose-Einstein condensate, EuroPhysics Letters, issue.5, p.83, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00257245

J. Dalibard, Collisional dynamics of ultra-cold atomic gases, Proceedings of the International School of Physics "Enrico Fermi, p.140, 1998.

J. Dalibard-;-dalibard, Cohérence et superfluidité dans les gaz atomiques, 2015.

[. Dalibard, J. Cohen-tannoudji-;-dalibard, and C. Cohen-tannoudji, Laser cooling below the Doppler limit by polarization gradients : simple theoretical models, Journal of the Optical Society of America B, vol.6, issue.11, 1989.

[. Dalibard, Proposals of stable optical traps for neutral atoms, Optics Communications, issue.6, p.47, 1983.

P. Damour, T. Damour, and A. Polyakov, The string dilation and a least coupling principle, Nuclear Physics B, vol.423, issue.2-3, 1994.

G. J. Dick-;-dick, Local oscillator induced instabilities in trapped ion frequency standards, Proceedings of the 19th APTTISA Meeting, 1987.

[. Dodd, Role of attractive interactions on Bose-Einstein condensation, Physical Review A, vol.54, issue.1, 1996.

[. Elliott, NASA's Cold Atom Lab (CAL) : system development and ground test status, p.4, 2018.

R. P. Feynman, Space-Time Approach to Non-Relativistic Quantum Mechanics, Reviews of Modern Physics, issue.2, p.20, 1948.

. Fortágh, J. Zimmermann-;-fortágh, and C. Zimmermann, Magnetic microtraps for ultracold atoms, Reviews of Modern Physics, issue.1, p.79, 2007.

[. Gehm, Dynamics of noise-induced heating in atom traps, Physical Review A, vol.58, issue.5, 1998.

R. Geiger-;-geiger, Senseur inertiel à ondes de matière aéroporté, 2011.

[. Geiger, Detecting inertial effects with airborne matter-wave interferometry, Nature Communications, vol.2, issue.1, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00834705

[. Gensemer, Ultracold 87 Rb ground-state hyperfine-changing collisions in the presence and absence of laser light, Physical Review A, vol.62, issue.3, p.30702, 2000.

P. A. Gominet, Accéléromètre atomique double espèce 87, 2014.

, Rb/ 39 K aéroporté pour un test du principe d'équivalence

. Greene, String theory, Proceedings of the National Academy of Sciences, p.95, 1998.

[. Grimm, Optical Dipole Traps for Neutral Atoms, Advances In Atomic, Molecular, and Optical Physics, vol.42, 2000.

[. Hensley, Active low frequency vertical vibration isolation, Review of Scientific Instruments, issue.6, p.70, 1999.

H. F. Hess-;-hess, Evaporative cooling of magnetically trapped and compressed spin-polarized hydrogen, Physical Review B, vol.34, issue.5, 1986.

[. Hu, Creation of a Bose-condensed gas of 87 Rb by laser cooling, Science, issue.6366, p.358, 2017.

[. Jacob, Production of sodium Bose-Einstein condensates in an optical dimple trap, New Journal of Physics, issue.6, p.13, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00583436

[. Jannin, Phase shift due to atom-atom interactions in a light-pulse atom interferometer, Physical Review A, vol.92, issue.1, 2015.

C. ;. Kasevich, M. Kasevich, and S. Chu, Atomic interferometry using stimulated Raman transitions, Physical Review Letters, issue.2, p.67, 1991.

K. , Fifteen years of cold matter on the atom chip : promise, realizations, and prospects, Journal of Modern Optics, issue.18, p.63, 2016.

, High densities of cold atoms in a dark spontaneous-force optical trap, Physical Review Letters, issue.15, p.70, 1993.

W. Ketterle, N. V. Druten, and . Khadjavi, Stark Effect in the Excited States of Rb, Advances In Atomic, Molecular, and Optical Physics, p.167, 1968.

, Quantum superposition at the half-metre scale, Nature, issue.7583, p.528, 2015.

, Compact cold atom clock for on-board timebase : tests in reduced gravity, Physical Review Applied, issue.6, p.10, 2018.

, The space clock PHARAO : functioning and expected performances, IEEE International Frequency Control Sympposium and PDA Exhibition Jointly with the 17th European Frequency and Time Forum, 2003.

, Hybridizing matter-wave and classical accelerometers, Applied Physics Letters, issue.14, p.105, 2014.

J. Gouët-;-le-gouët, Etude des performances d'un gravimètre atomique absolu : sensibilité limite et exactitude préliminaire, 2008.

L. Gouët, Influence of lasers propagation delay on the sensitivity of atom interferometers, The European Physical Journal D, issue.3, p.44, 2007.

L. Kien, Dynamical polarizability of atoms in arbitrary light fields : general theory and application to cesium, The European Physical Journal D, issue.5, p.67, 2013.

A. E. Leanhardt-;-leanhardt, Cooling Bose-Einstein Condensates Below 500 Picokelvin, Science, issue.5639, p.301, 2003.

. Lin, Rapid production of 87 Rb Bose-Einstein condensates in a combined magnetic and optical potential, Physical Review A, issue.6, p.79, 2009.

. Liu, Nature Communications, issue.1, p.9, 2018.

[. Luiten, Kinetic theory of the evaporative cooling of a trapped gas, Physical Review A, vol.53, issue.1, 1996.

T. Lévèque, Développement d'un gyromètre à atomes froids de haute sensibilité fondé sur une géométrie repliée, 2010.

[. Ma, Optimized evaporative cooling using a dimple potential : an efficient route to Bose-Einstein condensation, Journal of Physics B : Atomic, Molecular and Optical Physics, issue.15, p.37, 2004.

[. Malossi, Double diffraction in an atomic gravimeter, Physical Review A, vol.81, issue.1, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00412145

[. Martin, Bragg scattering of atoms from a standing light wave, Physical Review Letters, issue.6, p.60, 1988.

D. Mattingly, Modern Tests of Lorentz Invariance. Living Reviews in Relativity, vol.8, 2005.

[. Mazurenko, A cold-atom Fermi-Hubbard antiferromagnet, Nature, issue.7655, p.545, 2017.

[. Merlet, Operating an atom interferometer beyond its linear range, p.46, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00283932

[. Meunier, Stability enhancement by joint phase measurements in a single cold atomic fountain, Physical Review A, vol.90, issue.6, 2014.

M. G. Moharam and L. Young, Criterion for Bragg and Raman-Nath diffraction regimes, Applied Optics, issue.11, p.17, 1978.

[. Moler, Theoretical analysis of velocity-selective Raman transitions, Physical Review A, vol.45, issue.1, 1992.

T. W. Murphy-;-murphy, Lunar laser ranging : the millimeter challenge, Reports on Progress in Physics, issue.7, p.76, 2013.

V. Ménoret, Accéléromètre à atomes froids aéroporté pour un test du principe d'équivalence, 2012.

[. Ménoret, Dual-wavelength laser source for onboard atom interferometry, Optics Letters, issue.21, p.36, 2011.

[. Müntinga, Physical Review Letters, issue.9, p.110, 2013.

[. Naik, Velocity Tuned Hyperfine Dark State Loading and Cooling in a dipole trap, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02281456

[. Nyman, a transportable atomic inertial sensor for test in microgravity, Applied Physics B, vol.84, issue.4, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00023609

. O'hara, Scaling laws for evaporative cooling in time-dependent optical traps, Physical Review A, vol.64, issue.5, 2001.

[. Papoff, Transient velocityselective coherent population trapping in one dimension, Journal of the Optical Society of America B, vol.9, issue.3, 1992.

[. Pappa, Ultrasensitive atom imaging for matter-wave optics, New Journal of Physics, issue.11, p.13, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01461657

. Pechkis, Spinor Dynamics in an Antiferromagnetic Spin-1 Thermal Bose Gas, Physical Review Letters, issue.2, p.111, 2013.

[. Peil, Tests of local position invariance using continuously running atomic clocks, Physical Review A, vol.87, issue.1, 2013.

C. Pethick and H. Smith, Bose-Einstein condensation in dilute gases, 2008.

[. Petrich, Behavior of atoms in a compressed magneto-optical trap, Journal of the Optical Society of America B, vol.11, issue.8, 1994.

[. Petrich, Stable, Tightly Confining Magnetic Trap for Evaporative Cooling of Neutral Atoms, Physical Review Letters, issue.17, p.74, 1995.

P. Pottie-;-pottie, Etude du refroidissement laser en cellule : contribution au développement d'une horloge atomique miniature à 133 Cs, 2003.

[. Raman, N. Nath-;-raman, C. V. Nagendra-nath, and N. S. , The diffraction of light by high frequency sound waves, Proceedings of the Indian Academy of Sciences -Section A, vol.3, 1936.

N. F. Ramsey-;-ramsey, A Molecular Beam Resonance Method with Separated Oscillating Fields, Physical Review, issue.6, p.78, 1950.

[. Rosi, ?-enhanced grey molasses on the D2 transition of Rubidium-87 atoms, Scientific Reports, vol.8, issue.1, 2018.

[. Roura, Overcoming loss of contrast in atom interferometry due to gravity gradients, New Journal of Physics, issue.12, p.16, 2014.

C. Rovelli and . Roy, Rapid Cooling to Quantum Degeneracy in Dynamically Shaped Atom Traps, Physical Review A, vol.93, issue.4, 1998.

[. Rudolph, A high-flux BEC source for mobile atom interferometers, New Journal of Physics, issue.6, p.17, 2015.

C. Salomon, Franges de Ramsey et spectroscopie laser à ultrahaute resolution dans l'infrarouge, 1984.
URL : https://hal.archives-ouvertes.fr/tel-00011852

. Salomon, Gray-molasses cooling of 39 K to a high phase-space density, Euro-Physics Letters, vol.104, issue.6, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00870074

[. Sanner, Optical clock comparison for Lorentz symmetry testing, Nature, issue.7747, p.567, 2019.

[. Santarelli, Quantum Projection Noise in an Atomic Fountain : A High Stability Cesium Frequency Standard, Physical Review Letters, issue.23, p.82, 1999.

[. Savard, Laser-noiseinduced heating in far-off resonance optical traps, Physical Review A, vol.56, issue.2, 1997.

R. W. Schmieder, Matrix Elements of the Quadratic Stark Effect on Atoms with Hyperfine Structure, American Journal of Physics, issue.2, p.40, 1972.

[. Shang, Comparison of the cold-collision losses for laser-trapped sodium in different ground-state hyperfine sublevels, Physical Review A, vol.50, issue.6, 1994.

D. A. Steck-;-steck and . Stellmer, Rubidium 87 D Line Data. Classical and Modern Optics, Physical Review Letters, issue.26, p.110, 2001.

[. Stern, Frequency doubled 1534 nm laser system for potassium laser cooling, Applied Optics, issue.16, p.49, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00469724

[. Storey, C. Storey, P. Cohen-tannoudji, and C. , The Feynman path integral approach to atomic interferometry. A tutorial, Journal de Physique, vol.II, issue.11, p.4, 1994.
URL : https://hal.archives-ouvertes.fr/jpa-00248106

V. Taylor, T. Taylor, and G. Veneziano, Dilaton couplings at large distances, Physics Letters B, vol.213, issue.4, 1988.

. Thomas, Observation of Ramsey Fringes Using a Stimulated, Resonance Raman Transition in a Sodium Atomic Beam, Physical Review Letters, issue.13, p.48, 1982.

[. Touboul, Physical Review Letters, issue.23, p.119, 2017.

. Van-zoest, Bose-Einstein Condensation in Microgravity, p.328, 2010.

L. Viola and R. Onofrio, Testing the equivalence principle through freely falling quantum objects, Physical Review D, vol.55, issue.2, 1997.

[. Wolf, Atom interferometry and the Einstein equivalence principle, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00627555

[. Zhou, Test of Equivalence Principle at 10 -8 Level by a Dual-Species Double-Diffraction Raman Atom Interferometer, Physical Review Letters, issue.1, p.115, 2015.