Absence of localization in interacting spin chains with a discrete symmetry

Kloss, B.; Halimeh, Jad C.; Lazarides, Achilleas; Lev, Yevgeny Bar

doi:10.1038/s41467-023-39468-4

Nat Commun

2023

DOI: 10.1038/s41467-023-39468-4

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Absence of localization in interacting spin chains with a discrete symmetry

B. Kloss

Jad C. Halimeh

Achilleas Lazarides

et al.

Abstract: Novel paradigms of strong ergodicity breaking have recently attracted significant attention in condensed matter physics. Understanding the exact conditions required for their emergence or breakdown not only sheds more light on thermalization and its absence in closed quantum many-body systems, but it also has potential benefits for applications in quantum information technology. A case of particular interest is many-body localization whose conditions are not yet fully settled. Here, we prove that spin chains s… Show more

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2024

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Cited by 7 publications

References 61 publications

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Local integrals of motion and the stability of many-body localization in Wannier-Stark potentials

Bertoni,

Eisert,

Kshetrimayum

et al. 2024

Phys. Rev. B

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Local integrals of motion and the stability of many-body localization in Wannier-Stark potentials

Bertoni,

Eisert,

Kshetrimayum

et al. 2024

Phys. Rev. B

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Stark many-body localization under periodic driving

Duffin,

Deger,

Lazarides

2024

Phys. Rev. B

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We study the stability of localization under periodic driving in Stark many-body systems. We find that localization is stable except near special resonant frequencies, where resonances cause delocalization. We provide approximate analytical arguments and numerical evidence in support of these results. This shows that disorder-free broken ergodicity is stable to driving, opening up the way to studying nonequilibrium driven physics in a different setting. Published by the American Physical Society 2024

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Nonthermal eigenstates and slow relaxation in quantum Fredkin spin chains

Causer,

Bañuls,

Garrahan

2024

Phys. Rev. B

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We study the dynamics and thermalization of the Fredkin spin chain, a system with local three-body interactions, particle conservation, and explicit kinetic constraints. We consider deformations away from its stochastic point in order to tune between regimes where kinetic energy dominates and those where potential energy does. By means of exact diagonalization, perturbation theory, and variational matrix product states, we show there is a sudden change of behavior in the dynamics that occurs, from one of fast thermalization to one of slow metastable (prethermal) dynamics near the stochastic point. This change in relaxation is connected to the emergence of additional kinetic constraints, which lead to the fragmentation of Hilbert space in the limit of a large potential energy. We also show that this change can lead to thermalization being evaded for special initial conditions because of nonthermal eigenstates (akin to quantum many-body scars). We provide clear evidence for the existence of these nonthermal states for large system sizes even when far from the large-potential-energy limit, and explain their connection to the emergent kinetic constraints. Published by the American Physical Society 2024

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Absence of localization in interacting spin chains with a discrete symmetry

Cited by 7 publications

References 61 publications

Local integrals of motion and the stability of many-body localization in Wannier-Stark potentials

Local integrals of motion and the stability of many-body localization in Wannier-Stark potentials

Stark many-body localization under periodic driving

Nonthermal eigenstates and slow relaxation in quantum Fredkin spin chains

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