Symmetry enriched string-nets: Exactly solvable models for SET phases
Abstract
We construct exactly solvable models for a wide class of symmetry enriched topological (SET) phases. Our construction applies to 2D bosonic SET phases with finite unitary onsite symmetry group and we conjecture that our models realize every phase in this class that can be described by a commuting projector Hamiltonian. Our models are designed so that they have a special property: if we couple them to a dynamical lattice gauge field with gauge group , the resulting gauge theories are equivalent to modified string-net models. This property is what allows us to analyze our models in generality. As an example, we present a model for a phase with the same anyon excitations as the toric code and with a symmetry which exchanges the and type anyons. We further illustrate our construction with a number of additional examples.
Cite
@article{arxiv.1606.07816,
title = {Symmetry enriched string-nets: Exactly solvable models for SET phases},
author = {Chris Heinrich and Fiona Burnell and Lukasz Fidkowski and Michael Levin},
journal= {arXiv preprint arXiv:1606.07816},
year = {2016}
}
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