SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2761379279> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W2761379279 abstract "Entanglement entropy provides a powerful characterization of two-dimensional gapped topological phases of quantum matter, intimately tied to their description by topological quantum field theories (TQFTs). Fracton topological orders are three-dimensional gapped topologically ordered states of matter that lack a TQFT description. We show that three-dimensional fracton phases are nevertheless characterized, at least partially, by universal structure in the entanglement entropy of their ground-state wave functions. We explicitly compute the entanglement entropy for two archetypal fracton models, the ``X-cube model'' and ``Haah's code,'' and demonstrate the existence of a nonlocal contribution that scales linearly in subsystem size. We show via Schrieffer-Wolff transformations that this piece of the entanglement entropy of fracton models is robust against arbitrary local perturbations of the Hamiltonian. Finally, we argue that these results may be extended to characterize localization-protected fracton topological order in excited states of disordered fracton models." @default.
W2761379279 created "2017-10-20" @default.
W2761379279 creator A5007873567 @default.
W2761379279 creator A5011856527 @default.
W2761379279 creator A5048244594 @default.
W2761379279 creator A5058788304 @default.
W2761379279 creator A5059338686 @default.
W2761379279 date "2018-03-01" @default.
W2761379279 modified "2023-09-23" @default.
W2761379279 title "Topological entanglement entropy of fracton stabilizer codes" @default.
W2761379279 cites W1577101430 @default.
W2761379279 cites W1740640945 @default.
W2761379279 cites W1992223563 @default.
W2761379279 cites W1992350815 @default.
W2761379279 cites W1993289500 @default.
W2761379279 cites W1998550051 @default.
W2761379279 cites W1999423794 @default.
W2761379279 cites W2016193949 @default.
W2761379279 cites W2019024022 @default.
W2761379279 cites W2036346714 @default.
W2761379279 cites W2037242760 @default.
W2761379279 cites W2043452671 @default.
W2761379279 cites W2046439097 @default.
W2761379279 cites W2050698597 @default.
W2761379279 cites W2068367705 @default.
W2761379279 cites W2077485894 @default.
W2761379279 cites W2078159973 @default.
W2761379279 cites W2082257352 @default.
W2761379279 cites W2090466200 @default.
W2761379279 cites W2091164553 @default.
W2761379279 cites W2097361916 @default.
W2761379279 cites W2109251694 @default.
W2761379279 cites W2110596042 @default.
W2761379279 cites W2134085229 @default.
W2761379279 cites W2135273380 @default.
W2761379279 cites W2296895255 @default.
W2761379279 cites W2298547144 @default.
W2761379279 cites W2337929825 @default.
W2761379279 cites W2342176542 @default.
W2761379279 cites W2461023059 @default.
W2761379279 cites W2479782262 @default.
W2761379279 cites W2483369883 @default.
W2761379279 cites W2567789734 @default.
W2761379279 cites W2597839581 @default.
W2761379279 cites W2599203539 @default.
W2761379279 cites W2618803915 @default.
W2761379279 cites W2724921322 @default.
W2761379279 cites W2747292959 @default.
W2761379279 cites W2756856787 @default.
W2761379279 cites W2760553265 @default.
W2761379279 cites W2763922164 @default.
W2761379279 cites W2764174999 @default.
W2761379279 cites W3100008668 @default.
W2761379279 cites W3103860906 @default.
W2761379279 cites W3104428404 @default.
W2761379279 cites W3123361306 @default.
W2761379279 doi "https://doi.org/10.1103/physrevb.97.125101" @default.
W2761379279 hasPublicationYear "2018" @default.
W2761379279 type Work @default.
W2761379279 sameAs 2761379279 @default.
W2761379279 citedByCount "80" @default.
W2761379279 countsByYear W27613792792018 @default.
W2761379279 countsByYear W27613792792019 @default.
W2761379279 countsByYear W27613792792020 @default.
W2761379279 countsByYear W27613792792021 @default.
W2761379279 countsByYear W27613792792022 @default.
W2761379279 countsByYear W27613792792023 @default.
W2761379279 crossrefType "journal-article" @default.
W2761379279 hasAuthorship W2761379279A5007873567 @default.
W2761379279 hasAuthorship W2761379279A5011856527 @default.
W2761379279 hasAuthorship W2761379279A5048244594 @default.
W2761379279 hasAuthorship W2761379279A5058788304 @default.
W2761379279 hasAuthorship W2761379279A5059338686 @default.
W2761379279 hasBestOaLocation W27613792791 @default.
W2761379279 hasConcept C106301342 @default.
W2761379279 hasConcept C114614502 @default.
W2761379279 hasConcept C121040770 @default.
W2761379279 hasConcept C121332964 @default.
W2761379279 hasConcept C134306372 @default.
W2761379279 hasConcept C148908050 @default.
W2761379279 hasConcept C184720557 @default.
W2761379279 hasConcept C2779830401 @default.
W2761379279 hasConcept C33332235 @default.
W2761379279 hasConcept C33923547 @default.
W2761379279 hasConcept C40636538 @default.
W2761379279 hasConcept C45646460 @default.
W2761379279 hasConcept C62520636 @default.
W2761379279 hasConcept C7503960 @default.
W2761379279 hasConcept C77223115 @default.
W2761379279 hasConcept C84114770 @default.
W2761379279 hasConceptScore W2761379279C106301342 @default.
W2761379279 hasConceptScore W2761379279C114614502 @default.
W2761379279 hasConceptScore W2761379279C121040770 @default.
W2761379279 hasConceptScore W2761379279C121332964 @default.
W2761379279 hasConceptScore W2761379279C134306372 @default.
W2761379279 hasConceptScore W2761379279C148908050 @default.
W2761379279 hasConceptScore W2761379279C184720557 @default.
W2761379279 hasConceptScore W2761379279C2779830401 @default.
W2761379279 hasConceptScore W2761379279C33332235 @default.
W2761379279 hasConceptScore W2761379279C33923547 @default.