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Topological Phases of One-Dimensional Fermions: An Entanglement Point of View | | Ari M. Turner
; Frank Pollmann
; Erez Berg
; | | Date: |
25 Aug 2010 | | Abstract: | The effect of interactions on topological insulators and superconductors
remains, to a large extent, an open problem. Here, we describe a framework for
classifying phases of one-dimensional interacting fermions, focusing on
spinless fermions with time-reversal symmetry and particle number parity
conservation, using concepts of entanglement. In agreement with an example
presented by Fidkowski emph{et. al.} (Phys. Rev. B 81, 134509 (2010)), we find
that in the presence of interactions there are only eight distinct phases,
which obey a $mathbb{Z}_8$ group structure. This is in contrast to the
$mathbb{Z}$ classification in the non-interacting case. Each of these eight
phases is characterized by a unique set of bulk invariants, related to the
transformation laws of its entanglement (Schmidt) eigenstates under symmetry
operations, and has a characteristic degeneracy of its entanglement levels. If
translational symmetry is present, the number of distinct phases increases to
16. | | Source: | arXiv, 1008.4346 | | Services: | Forum | Review | PDF | Favorites | |
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