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Cumulant theory of the unitary Bose gas: Prethermal and Efimovian dynamics

V. E. Colussi, Hadrien Kurkjian, Mathias Van Regemortel, S. Musolino, J. van de Kraats, Michiel Wouters, S. J. J. M. F. Kokkelmans

2020Physical review. A/Physical review, A23 citationsDOIOpen Access PDF

Abstract

We study the quench of a degenerate ultracold Bose gas to the unitary regime, where interactions are as strong as allowed by quantum mechanics. We lay the foundation of a cumulant theory able to simultaneously capture the three-body Efimov effect and ergodic evolution. After an initial period of rapid quantum depletion, a universal prethermal stage is established, characterized by a kinetic temperature and an emergent Bogoliubov dispersion law, while the microscopic degrees of freedom remain far from equilibrium. Integrability is then broken by higher-order interaction terms in the many-body Hamiltonian, leading to a momentum-dependent departure from power law to decaying exponential behavior of the occupation numbers at large momentum. We also find signatures of the Efimov effect in the many-body dynamics and make a precise identification between the observed beating phenomenon and the binding energy of an Efimov trimer. Throughout the paper, our predictions for a uniform gas are quantitatively compared with experimental results for quenched unitary Bose gases in uniform potentials.

Topics & Concepts

Bose gasPhysicsDegenerate energy levelsHamiltonian (control theory)Quantum mechanicsUnitary stateQuantumAngular momentumMomentum (technical analysis)Kinetic energyDegrees of freedom (physics and chemistry)Ergodic theoryClassical mechanicsBose–Einstein condensateLawMathematicsPolitical scienceEconomicsFinanceMathematical optimizationMathematical analysisCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsQuantum, superfluid, helium dynamics
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