Anyons are not energy eigenspaces of quantum double Hamiltonians

Creators: Kómár, Anna; Landon-Cardinal, Olivier

Abstract

Kitaev's quantum double models, including the toric code, are canonical examples of quantum topological models on a two-dimensional spin lattice. Their Hamiltonian defines the ground space by imposing an energy penalty to any nontrivial flux or charge, but does not distinguish among those. We generalize this construction by introducing a family of Hamiltonians made of commuting four-body projectors that provide an intricate splitting of the Hilbert space by discriminating among nontrivial charges and fluxes. Our construction highlights that anyons are not in one-to-one correspondence with energy eigenspaces, a feature already present in Kitaev's construction. This discrepancy is due to the presence of local degrees of freedom in addition to topological ones on a lattice.

Additional Information

© 2017 American Physical Society. Received 16 June 2017; published 27 November 2017. We thank J. Preskill, A. Kitaev, D. Aasen, B. Levitan, S. Shukla, and D. Williamson for helpful discussions. We acknowledge funding provided by the Institute for Quantum Information and Matter, an NSF Physics Frontiers Center (NSF Grant No. PHY-1125565) with support of the Gordon and Betty Moore Foundation (Grant No. GBMF-2644). O.L.C. is partially supported by the Natural Sciences and Engineering Research Council of Canada (NSERC).

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Published - PhysRevB.96.195150.pdf

Submitted - 1701.04456.pdf

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PhysRevB.96.195150.pdf

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