Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions

José Garre Rubio; András Molnár; Yoshiko Ogata

doi:10.48550/arXiv.2403.18573

Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions

José Garre Rubio
, András Molnár
, Yoshiko Ogata

Department of Mathematics

Publications: Working paper › Preprint

Abstract

We consider the classification problem of quantum spin chains invariant under local decomposable group actions, covering matrix product unitaries (MPUs), using an operator algebraic approach. We focus on finite group symmetries hosting both symmetric and symmetry broken phases. The local-decomposable group actions we consider have a 3-cocycle class of the symmetry group associated to them. We derive invariants for our classification that naturally cover one-dimensional symmetry protected topological (SPT) phases. We prove that these invariants coincide with the ones of [J. Garre Rubio et al, Quantum 7, 927 (2023)] using matrix product states (MPSs) techniques, by explicitly working out the GNS representation of MPSs and MPUs, resulting in a useful dictionary between both approaches that could be of independent interest.

Original language	English
Publisher	arXiv
Pages	1-55
DOIs	https://doi.org/10.48550/arXiv.2403.18573
Publication status	Published - 27 Mar 2024

Austrian Fields of Science 2012

101028 Mathematical modelling
103036 Theoretical physics
103025 Quantum mechanics

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SEQUAM: Symmetries and Entanglement in Quantum Matter
Schuch, N. (Project Lead)
1/10/20 → 30/09/26
Project: Research funding

Cite this

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title = "Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions",

abstract = "We consider the classification problem of quantum spin chains invariant under local decomposable group actions, covering matrix product unitaries (MPUs), using an operator algebraic approach. We focus on finite group symmetries hosting both symmetric and symmetry broken phases. The local-decomposable group actions we consider have a 3-cocycle class of the symmetry group associated to them. We derive invariants for our classification that naturally cover one-dimensional symmetry protected topological (SPT) phases. We prove that these invariants coincide with the ones of [J. Garre Rubio et al, Quantum 7, 927 (2023)] using matrix product states (MPSs) techniques, by explicitly working out the GNS representation of MPSs and MPUs, resulting in a useful dictionary between both approaches that could be of independent interest.",

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T1 - Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions

AU - Garre Rubio, José

AU - Molnár, András

AU - Ogata, Yoshiko

PY - 2024/3/27

Y1 - 2024/3/27

N2 - We consider the classification problem of quantum spin chains invariant under local decomposable group actions, covering matrix product unitaries (MPUs), using an operator algebraic approach. We focus on finite group symmetries hosting both symmetric and symmetry broken phases. The local-decomposable group actions we consider have a 3-cocycle class of the symmetry group associated to them. We derive invariants for our classification that naturally cover one-dimensional symmetry protected topological (SPT) phases. We prove that these invariants coincide with the ones of [J. Garre Rubio et al, Quantum 7, 927 (2023)] using matrix product states (MPSs) techniques, by explicitly working out the GNS representation of MPSs and MPUs, resulting in a useful dictionary between both approaches that could be of independent interest.

AB - We consider the classification problem of quantum spin chains invariant under local decomposable group actions, covering matrix product unitaries (MPUs), using an operator algebraic approach. We focus on finite group symmetries hosting both symmetric and symmetry broken phases. The local-decomposable group actions we consider have a 3-cocycle class of the symmetry group associated to them. We derive invariants for our classification that naturally cover one-dimensional symmetry protected topological (SPT) phases. We prove that these invariants coincide with the ones of [J. Garre Rubio et al, Quantum 7, 927 (2023)] using matrix product states (MPSs) techniques, by explicitly working out the GNS representation of MPSs and MPUs, resulting in a useful dictionary between both approaches that could be of independent interest.

U2 - 10.48550/arXiv.2403.18573

DO - 10.48550/arXiv.2403.18573

M3 - Preprint

SP - 1

EP - 55

BT - Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions

PB - arXiv

ER -

Classifying symmetric and symmetry-broken spin chain phases with anomalous group actions

Abstract

Austrian Fields of Science 2012

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SEQUAM: Symmetries and Entanglement in Quantum Matter

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