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Autori principali: Zhou, Huan-Qiang, Osborne, Jesse J., Shi, Qian-Qian, McCulloch, Ian P.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2502.14605
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author Zhou, Huan-Qiang
Osborne, Jesse J.
Shi, Qian-Qian
McCulloch, Ian P.
author_facet Zhou, Huan-Qiang
Osborne, Jesse J.
Shi, Qian-Qian
McCulloch, Ian P.
contents For a quantum many-body spin system undergoing spontaneous symmetry breaking with type-B Goldstone modes, a high degree of degeneracy arises in the ground state manifold. Generically, if this degeneracy is polynomial in system size, then it does not depend on the type of boundary conditions used. However, if there exists an emergent (local) symmetry operation tailored to a specific degenerate ground state, then we show that the degeneracies are exponential in system size and are different under periodic boundary conditions (PBCs) and open boundary conditions (OBCs). We further show that the exponential ground state degeneracies in turn imply the emergence of Goldstone flat bands -- single-mode excitations generated by a multi-site operator and its images under the repeated action of the translation operation under PBCs or the cyclic permutation symmetry operation under OBCs. Conversely, we also show that the presence of emergent Goldstone flat bands implies that there exists an emergent (local) symmetry operation tailored to a specific degenerate ground state. In addition, we propose an extrinsic characterization of emergent Goldstone flat bands, revealing a connection to quantum many-body scars, which violate the eigenstate thermalization hypothesis. We illustrate this by presenting examples from the staggered ${\rm SU}(4)$ spin-1 ferromagnetic biquadratic model and the staggered ${\rm SU}(4)$ ferromagnetic spin-orbital model. We also perform extensive numerical simulations for the more general ${\rm SO}(3)$ spin-1 bilinear-biquadratic and ${\rm SO(4)}$ ferromagnetic spin-orbital models, containing the two aforementioned models as the endpoints in the ferromagnetic regimes respectively, and confirm the emergence of Goldstone flat bands, as we approach these endpoints from deep inside the ferromagnetic regimes.
format Preprint
id arxiv_https___arxiv_org_abs_2502_14605
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Emergent Goldstone flat bands and spontaneous symmetry breaking with type-B Goldstone modes
Zhou, Huan-Qiang
Osborne, Jesse J.
Shi, Qian-Qian
McCulloch, Ian P.
Strongly Correlated Electrons
For a quantum many-body spin system undergoing spontaneous symmetry breaking with type-B Goldstone modes, a high degree of degeneracy arises in the ground state manifold. Generically, if this degeneracy is polynomial in system size, then it does not depend on the type of boundary conditions used. However, if there exists an emergent (local) symmetry operation tailored to a specific degenerate ground state, then we show that the degeneracies are exponential in system size and are different under periodic boundary conditions (PBCs) and open boundary conditions (OBCs). We further show that the exponential ground state degeneracies in turn imply the emergence of Goldstone flat bands -- single-mode excitations generated by a multi-site operator and its images under the repeated action of the translation operation under PBCs or the cyclic permutation symmetry operation under OBCs. Conversely, we also show that the presence of emergent Goldstone flat bands implies that there exists an emergent (local) symmetry operation tailored to a specific degenerate ground state. In addition, we propose an extrinsic characterization of emergent Goldstone flat bands, revealing a connection to quantum many-body scars, which violate the eigenstate thermalization hypothesis. We illustrate this by presenting examples from the staggered ${\rm SU}(4)$ spin-1 ferromagnetic biquadratic model and the staggered ${\rm SU}(4)$ ferromagnetic spin-orbital model. We also perform extensive numerical simulations for the more general ${\rm SO}(3)$ spin-1 bilinear-biquadratic and ${\rm SO(4)}$ ferromagnetic spin-orbital models, containing the two aforementioned models as the endpoints in the ferromagnetic regimes respectively, and confirm the emergence of Goldstone flat bands, as we approach these endpoints from deep inside the ferromagnetic regimes.
title Emergent Goldstone flat bands and spontaneous symmetry breaking with type-B Goldstone modes
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2502.14605