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Auteurs principaux: Rey, Anthony, Aksoy, Ömer M., Arovas, Daniel P., Chamon, Claudio, Mudry, Christopher
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2502.14958
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author Rey, Anthony
Aksoy, Ömer M.
Arovas, Daniel P.
Chamon, Claudio
Mudry, Christopher
author_facet Rey, Anthony
Aksoy, Ömer M.
Arovas, Daniel P.
Chamon, Claudio
Mudry, Christopher
contents We present a scenario, in which a gapless extended phase serves as a "hub" connecting multiple symmetry-enriched deconfined quantum critical points. As a concrete example, we construct a lattice model with $\mathbb{Z}^{\,}_{2}\times \mathbb{Z}^{\,}_{2}\times \mathbb{Z}^{\,}_{2}$ symmetry for quantum spin-1/2 degrees of freedom that realizes four distinct gapful phases supporting antiferromagnetic long-range order and one extended incommensurate gapless ferromagnetic phase. The quantum phase transition between any two of the four gapped and antiferromagnetic phases goes through either a (deconfined) quantum critical point, a quantum tricritical point, or the incommensurate gapless ferromagnetic phase. In this phase diagram, it is possible to interpolate between four deconfined quantum critical points by passing through the extended gapless ferromagnetic phase. We identify the phases in the model and the nature of the transitions between them through a combination of analytical arguments and density matrix renormalization group studies.
format Preprint
id arxiv_https___arxiv_org_abs_2502_14958
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Incommensurate gapless ferromagnetism connecting competing symmetry-enriched deconfined quantum phase transitions
Rey, Anthony
Aksoy, Ömer M.
Arovas, Daniel P.
Chamon, Claudio
Mudry, Christopher
Strongly Correlated Electrons
We present a scenario, in which a gapless extended phase serves as a "hub" connecting multiple symmetry-enriched deconfined quantum critical points. As a concrete example, we construct a lattice model with $\mathbb{Z}^{\,}_{2}\times \mathbb{Z}^{\,}_{2}\times \mathbb{Z}^{\,}_{2}$ symmetry for quantum spin-1/2 degrees of freedom that realizes four distinct gapful phases supporting antiferromagnetic long-range order and one extended incommensurate gapless ferromagnetic phase. The quantum phase transition between any two of the four gapped and antiferromagnetic phases goes through either a (deconfined) quantum critical point, a quantum tricritical point, or the incommensurate gapless ferromagnetic phase. In this phase diagram, it is possible to interpolate between four deconfined quantum critical points by passing through the extended gapless ferromagnetic phase. We identify the phases in the model and the nature of the transitions between them through a combination of analytical arguments and density matrix renormalization group studies.
title Incommensurate gapless ferromagnetism connecting competing symmetry-enriched deconfined quantum phase transitions
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2502.14958