Litcius/Paper detail

Probing Transport and Slow Relaxation in the Mass-Imbalanced Fermi-Hubbard Model

Nelson Darkwah Oppong, Giuseppe Pasqualetti, Oscar Bettermann, Philip Zechmann, Michael Knap, Immanuel Bloch, Simon Fölling

2022Physical Review X31 citationsDOIOpen Access PDF

Abstract

Constraints in the dynamics of quantum many-body systems can dramatically alter transport properties and relaxation timescales even in the absence of static disorder. Here, we report on the observation of such constrained dynamics arising from the distinct mobility of two species in the one-dimensional massimbalanced Fermi-Hubbard model, realized with ultracold ytterbium atoms in a state-dependent optical lattice. By displacing the trap potential and monitoring the subsequent dynamical response of the system, we identify suppressed transport and slow relaxation with a strong dependence on the mass imbalance and interspecies interaction strength, consistent with eventual thermalization for long times. Our observations demonstrate the potential for quantum simulators to provide insights into unconventional relaxation dynamics arising from constraints.

Topics & Concepts

PhysicsOptical latticeRelaxation (psychology)ThermalisationQuantumTransport phenomenaStatistical physicsCondensed matter physicsQuantum mechanicsSuperfluiditySocial psychologyPsychologyQuantum many-body systemsCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamics
Probing Transport and Slow Relaxation in the Mass-Imbalanced Fermi-Hubbard Model | Litcius