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Restoring Ergodicity in a Strongly Disordered Interacting Chain

Bartosz Krajewski, Lev Vidmar, J. Bonča, Marcin Mierzejewski

2022Physical Review Letters18 citationsDOI

Abstract

We consider a chain of interacting fermions with random disorder that was intensively studied in the context of many-body localization. We show that only a small fraction of the two-body interaction represents a true local perturbation to the Anderson insulator. While this true perturbation is nonzero at any finite disorder strength W, it decreases with increasing W. This establishes a view that the strongly disordered system should be viewed as a weakly perturbed integrable model, i.e., a weakly perturbed Anderson insulator. As a consequence, the latter can hardly be distinguished from a strictly integrable system in finite-size calculations at large W. We then introduce a rescaled model in which the true perturbation is of the same order of magnitude as the other terms of the Hamiltonian, and show that the system remains ergodic at arbitrary large disorder.

Topics & Concepts

PhysicsIntegrable systemErgodic theoryErgodicityHamiltonian (control theory)Perturbation (astronomy)Anderson localizationFermionStatistical physicsQuantum mechanicsMathematical physicsMathematicsPure mathematicsMathematical optimizationQuantum many-body systemsCold Atom Physics and Bose-Einstein CondensatesPhysics of Superconductivity and Magnetism
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