Bosonic anomalies, induced fractional quantum numbers, and degenerate zero modes: The anomalous edge physics of symmetry-protected topological states
Author(s)
Santos, Luiz H.; Wen, Xiao-Gang; Wang, Chun-Fan Juven
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The boundary of symmetry-protected topological states (SPTs) can harbor new quantum anomaly phenomena. In this work, we characterize the bosonic anomalies introduced by the 1+1D non-onsite-symmetric gapless edge modes of (2+1)D bulk bosonic SPTs with a generic finite Abelian group symmetry (isomorphic to G = ∏[subscript i]Z[subscript Ni] = Z[subscript N1] × Z[subscript N2] × Z[subscript N3] × ⋯). We demonstrate that some classes of SPTs (termed “Type II”) trap fractional quantum numbers (such as fractional Z[subscript N] charges) at the 0D kink of the symmetry-breaking domain walls, while some classes of SPTs (termed “Type III”) have degenerate zero energy modes (carrying the projective representation protected by the unbroken part of the symmetry), either near the 0D kink of a symmetry-breaking domain wall, or on a symmetry-preserving 1D system dimensionally reduced from a thin 2D tube with a monodromy defect 1D line embedded. More generally, the energy spectrum and conformal dimensions of gapless edge modes under an external gauge flux insertion (or twisted by a branch cut, i.e., a monodromy defect line) through the 1D ring can distinguish many SPT classes. We provide a manifest correspondence from the physical phenomena, the induced fractional quantum number, and the zero energy mode degeneracy to the mathematical concept of cocycles that appears in the group cohomology classification of SPTs, thus achieving a concrete physical materialization of the cocycles. The aforementioned edge properties are formulated in terms of a long wavelength continuum field theory involving scalar chiral bosons, as well as in terms of matrix product operators and discrete quantum lattice models. Our lattice approach yields a regularization with anomalous non-onsite symmetry for the field theory description. We also formulate some bosonic anomalies in terms of the Goldstone-Wilczek formula.
Date issued
2015-05Department
Massachusetts Institute of Technology. Department of PhysicsJournal
Physical Review B
Publisher
American Physical Society
Citation
Wang, Juven C., Luiz H. Santos, and Xiao-Gang Wen. “Bosonic Anomalies, Induced Fractional Quantum Numbers, and Degenerate Zero Modes: The Anomalous Edge Physics of Symmetry-Protected Topological States.” Phys. Rev. B 91, no. 19 (May 2015). © 2015 American Physical Society
Version: Final published version
ISSN
1098-0121
1550-235X