The impact of Coulomb interaction on the electronic properties of a quantum spin Hall insulator is studied using quantum cluster methods, disentangling local from nonlocal effects. We identify different regimes, according to the value of the bare mass term, characterized by drastically different self-energy contributions. For small mass, nonlocal correlations start to be important and eventually dominate over local ones when getting close enough to the zero-mass semimetallic line. For intermediate and large mass, local correlation effects outweigh nonlocal corrections, leading to a first-order topological phase transition, in agreement with previous predictions.
Local versus nonlocal correlation effects in interacting quantum spin Hall insulators
Amaricci A.;Capone M.
2021
Abstract
The impact of Coulomb interaction on the electronic properties of a quantum spin Hall insulator is studied using quantum cluster methods, disentangling local from nonlocal effects. We identify different regimes, according to the value of the bare mass term, characterized by drastically different self-energy contributions. For small mass, nonlocal correlations start to be important and eventually dominate over local ones when getting close enough to the zero-mass semimetallic line. For intermediate and large mass, local correlation effects outweigh nonlocal corrections, leading to a first-order topological phase transition, in agreement with previous predictions.| File | Dimensione | Formato | |
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Descrizione: This document is the Accepted Manuscript version of a Published Work that appeared in final form in PPHYSICAL REVIEW B 104, 235117 (2021), after peer review and technical editing by the publisher. https://doi.org/10.1103/PhysRevB.104.235117
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