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Interacting Edge States of Fermionic Symmetry-Protected Topological Phases in Two Dimensions

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arxiv 1904.08953 v5 pith:OFMGNMR6 submitted 2019-04-18 cond-mat.str-el hep-th

Interacting Edge States of Fermionic Symmetry-Protected Topological Phases in Two Dimensions

classification cond-mat.str-el hep-th
keywords edgesymmetryfermionicinteractingmathbbsymmetry-protecteddimensionsmodel
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Recently, it has been found that there exist symmetry-protected topological phases of fermions, which have no realizations in non-interacting fermionic systems or bosonic models. We study the edge states of such an intrinsically interacting fermionic SPT phase in two spatial dimensions, protected by $\mathbb{Z}_4\times\mathbb{Z}_2^T$ symmetry. We model the edge Hilbert space by replacing the internal $\mathbb{Z}_4$ symmetry with a spatial translation symmetry, and design an exactly solvable Hamiltonian for the edge model. We show that at low-energy the edge can be described by a two-component Luttinger liquid, with nontrivial symmetry transformations that can only be realized in strongly interacting systems. We further demonstrate the symmetry-protected gaplessness under various perturbations, and the bulk-edge correspondence in the theory.

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