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Physique quantique à plusieurs corps avec des fermions dans une boîte optique. – (Nir Navon/ LPT / Seminar). – 12/12/2024, 10H
12 décembre 2024; 10h00 - 11h30
Séminaire LPT
Nir Navon (Université Yale)
Seminar LPT, 12/12/2024, 10H, 3R4, salle de conférence
Summary
For the past two decades harmonically trapped ultracold atomic gases have been used with great success to study fundamental many-body physics in flexible experimental settings. However, the resulting gas density inhomogeneity in those traps makes it challenging to study paradigmatic uniform-system physics (such as critical behavior near phase transitions) or complex quantum dynamics.
The realization of homogeneous quantum gases trapped in optical boxes has marked a milestone in the quantum simulation program with ultracold atoms [1]. These textbook systems have proved to be a powerful playground by simplifying the interpretation of experimental measurements, by making more direct connections to theories of the many-body problem that generally rely on the translational symmetry of the system, and by altogether enabling previously inaccessible experiments.
In this talk, I will present some of our recent studies of many-body physics with ultracold fermions trapped in a box of light [2-6]. This platform is particularly suitable to study problems of Fermi-system stability, of which I will discuss two cases : the spin-1/2 Fermi gas with repulsive contact interactions [2], and the three-component Fermi gas with spin-population imbalance [3]. Both studies lead to surprising results, highlighting how spatial homogeneity not only simplifies the connection between experiments and theory, but can also unveil unexpected outcomes. I will also present other recent works, including the first observation of the fermionic Joule-Thomson effect [4], the strongly driven Fermi polaron [5], and the emergence of sound in a Fermi gas with tunable interactions [6].
References :
[1] N. Navon, R.P. Smith, Z. Hadzibabic, Nature Phys. 17, 1334 (2021)
[2] Y. Ji et al., Phys. Lev. Lett 129, 203402 (2022)
[3] G.L. Schumacher et al., arXiv:2301.02237
[4] Y. Ji et al., Phys. Lev. Lett 132, 153402 (2024)
[5] F.J. Vivanco , arXiv:2308.05746
[6] S. Huang, arXiv:2407.13769