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Spectral statistics of a minimal quantum glass model

Richard Barney, Michael Winer, Christopher L. Baldwin, Brian Swingle, Victor Galitski

2023SciPost Physics15 citationsDOIOpen Access PDF

Abstract

Glasses have the interesting feature of being neither integrable nor fully chaotic. They thermalize quickly within a subspace but thermalize much more slowly across the full space due to high free energy barriers which partition the configuration space into sectors. Past works have examined the Rosenzweig-Porter (RP) model as a minimal quantum model which transitions from localized to chaotic behavior. In this work we generalize the RP model in such a way that it becomes a minimal model which transitions from glassy to chaotic behavior, which we term the “Block Rosenzweig-Porter” (BRP) model. We calculate the spectral form factors of both models at all timescales larger than the inverse spectral width. Whereas the RP model exhibits a crossover from localized to ergodic behavior at the Thouless timescale, the new BRP model instead crosses over from glassy to fully chaotic behavior, as seen by a change in the steepness of the ramp of the spectral form factor.

Topics & Concepts

ChaoticStatistical physicsErgodic theoryThermalisationCrossoverQuantumPhysicsSubspace topologyInverseIntegrable systemPartition (number theory)Quantum mechanicsMathematicsMathematical analysisMathematical physicsComputer scienceCombinatoricsArtificial intelligenceGeometryQuantum many-body systemsTheoretical and Computational PhysicsOpinion Dynamics and Social Influence