Journal article

Excitations in the higher lattice gauge theory model for topological phases II: the 2+1d case

Abstract:: In this work, the second paper of this series, we study the (2+1)-dimensional version of a Hamiltonian model for topological phases based on higher-lattice gauge theory. We construct the ribbon operators that produce the pointlike excitations. These ribbon operators are used to find the braiding properties and topological charge carried by the pointlike excitations. The model also hosts looplike excitations, which are produced by membrane operators. By considering a change of basis, we show that, in certain cases, some looplike excitations represent domain walls between patches corresponding to different symmetry-related ground states, and we find this symmetry. We also map the higher-lattice gauge theory Hamiltonian to the symmetry-enriched string-net model for symmetry-enriched topological phases described by Heinrich, Burnell, Fidkowski, and Levin [Phys. Rev. B 94, 235136 (2016)], again in a subset of cases.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Huxford, J., & Simon, S. H. (2023). Excitations in the higher lattice gauge theory model for topological phases II: the 2+1d case. Physical Review B, 108(24).

MLA Style

Huxford, J., and S. H. Simon. “Excitations in the Higher Lattice Gauge Theory Model for Topological Phases II: the 2+1d Case.” Physical Review B, vol. 108, no. 24, American Physical Society, 2023.

Chicago Style

Huxford, J, and SH Simon. 2023. “Excitations in the Higher Lattice Gauge Theory Model for Topological Phases II: the 2+1d Case.” Physical Review B 108 (24).
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Files:: Huxford_and_Simon_2023_Excitations_in_II.pdf

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Publisher copy:: 10.1103/PhysRevB.108.245133

Authors

+ Huxford, J More by this author

Role:: Author

+ Simon, SH More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Physics
Sub department:: Theoretical Physics
Role:: Author

Publisher:: American Physical Society
Journal:: Physical Review B More from this journal
Volume:: 108
Issue:: 24
Article number:: 245133
Publication date:: 2023-12-12
Acceptance date:: 2023-10-31
DOI:: 10.1103/PhysRevB.108.245133
EISSN:: 2469-9969
ISSN:: 2469-9950

Language:: English
Keywords:: FFR
Pubs id:: 1556054
Local pid:: pubs:1556054
Deposit date:: 2023-10-31

Terms of use

Copyright date:: 2023
Rights statement:: © 2023 Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

Licence:: CC Attribution (CC BY)

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