Quantum thermalization and the route to ergodicity

Amichay Vardi; Doron Cohen

doi:10.1103/7355-1nlj

Quantum thermalization and the route to ergodicity

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Abstract

We consider a minimal model for quantum thermalization of coupled chaotic subsystems. The route toward ergodicity is explored as a function of the coupling strength. The results are contrasted with the predictions of standard random matrix theory and the eigenstates thermalization hypothesis. We highlight a coupling regime of disparity between the spectral statistics that indicates chaos and ergodicity measures that indicate lack of eigenstate thermalization. The analysis involves a revision of the energy-shell concept, in a way that is consistent but independent of the semiclassical perspective.

Original language	English
Article number	043293
Journal	Physical Review Research
Volume	7
Issue number	4
DOIs	https://doi.org/10.1103/7355-1nlj
State	Published - 1 Oct 2025

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/7355-1nlj

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title = "Quantum thermalization and the route to ergodicity",

abstract = "We consider a minimal model for quantum thermalization of coupled chaotic subsystems. The route toward ergodicity is explored as a function of the coupling strength. The results are contrasted with the predictions of standard random matrix theory and the eigenstates thermalization hypothesis. We highlight a coupling regime of disparity between the spectral statistics that indicates chaos and ergodicity measures that indicate lack of eigenstate thermalization. The analysis involves a revision of the energy-shell concept, in a way that is consistent but independent of the semiclassical perspective.",

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AB - We consider a minimal model for quantum thermalization of coupled chaotic subsystems. The route toward ergodicity is explored as a function of the coupling strength. The results are contrasted with the predictions of standard random matrix theory and the eigenstates thermalization hypothesis. We highlight a coupling regime of disparity between the spectral statistics that indicates chaos and ergodicity measures that indicate lack of eigenstate thermalization. The analysis involves a revision of the energy-shell concept, in a way that is consistent but independent of the semiclassical perspective.

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Quantum thermalization and the route to ergodicity

Abstract

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