SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W314138712> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W314138712 abstract "The interplay of symmetry and topological order leads to a variety of distinct phases of matter, the symmetry enriched topological (SET) phases. Here we discuss physical observables that distinguish different SETs in the context of ${mathbb{Z}}_{2}$ quantum spin liquids with SU(2) spin rotation invariance. We focus on the cylinder geometry, and show that ground-state quantum numbers for different topological sectors are robust invariants which can be used to identify the SET phase. More generally, these invariants are related to 1D symmetry protected topological phases when viewing the cylinder geometry as a 1D spin chain. In particular, we show that the kagome spin liquid SET can be determined by measurements on one ground state, by wrapping the kagome in a few different ways on the cylinder. In addition to guiding numerical studies, this approach provides a transparent way to connect bosonic and fermionic mean-field theories of spin liquids. When fusing quasiparticles, it correctly predicts nontrivial phase factors for combining their space group quantum numbers." @default.
W314138712 created "2016-06-24" @default.
W314138712 creator A5003385467 @default.
W314138712 creator A5011916555 @default.
W314138712 creator A5043780039 @default.
W314138712 date "2017-11-29" @default.
W314138712 modified "2023-10-14" @default.
W314138712 title "Measuring space-group symmetry fractionalization in <mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML><mml:msub><mml:mi mathvariant=double-struck>Z</mml:mi><mml:mn>2</mml:mn></mml:msub></mml:math> spin liquids" @default.
W314138712 cites W1506257487 @default.
W314138712 cites W1522396070 @default.
W314138712 cites W1551307471 @default.
W314138712 cites W1576765155 @default.
W314138712 cites W1920957234 @default.
W314138712 cites W1942206397 @default.
W314138712 cites W1974147150 @default.
W314138712 cites W1978494444 @default.
W314138712 cites W1984939111 @default.
W314138712 cites W1997841067 @default.
W314138712 cites W2004218949 @default.
W314138712 cites W2009749005 @default.
W314138712 cites W2013681083 @default.
W314138712 cites W2014209032 @default.
W314138712 cites W2016193949 @default.
W314138712 cites W2019024022 @default.
W314138712 cites W2019432417 @default.
W314138712 cites W2029930602 @default.
W314138712 cites W2033752599 @default.
W314138712 cites W2037034135 @default.
W314138712 cites W2042474226 @default.
W314138712 cites W2045686550 @default.
W314138712 cites W2046204756 @default.
W314138712 cites W2046439097 @default.
W314138712 cites W2055328759 @default.
W314138712 cites W2055519393 @default.
W314138712 cites W2056714729 @default.
W314138712 cites W2057666228 @default.
W314138712 cites W2059538679 @default.
W314138712 cites W2066379221 @default.
W314138712 cites W2077553792 @default.
W314138712 cites W2082257352 @default.
W314138712 cites W2090506331 @default.
W314138712 cites W2091393784 @default.
W314138712 cites W2093737252 @default.
W314138712 cites W2097903774 @default.
W314138712 cites W2104740527 @default.
W314138712 cites W2105077826 @default.
W314138712 cites W2110140268 @default.
W314138712 cites W2116754813 @default.
W314138712 cites W2119500201 @default.
W314138712 cites W2122216132 @default.
W314138712 cites W2133851121 @default.
W314138712 cites W2137748572 @default.
W314138712 cites W2141192973 @default.
W314138712 cites W2141708961 @default.
W314138712 cites W2159609761 @default.
W314138712 cites W2161021349 @default.
W314138712 cites W2230216608 @default.
W314138712 cites W3022633097 @default.
W314138712 cites W3099004605 @default.
W314138712 cites W3100041391 @default.
W314138712 cites W3104095912 @default.
W314138712 cites W3104385482 @default.
W314138712 cites W3104696897 @default.
W314138712 cites W3124693329 @default.
W314138712 cites W3152260666 @default.
W314138712 cites W751813399 @default.
W314138712 cites W821377971 @default.
W314138712 doi "https://doi.org/10.1103/physrevb.96.195164" @default.
W314138712 hasPublicationYear "2017" @default.
W314138712 type Work @default.
W314138712 sameAs 314138712 @default.
W314138712 citedByCount "23" @default.
W314138712 countsByYear W3141387122018 @default.
W314138712 countsByYear W3141387122019 @default.
W314138712 countsByYear W3141387122020 @default.
W314138712 countsByYear W3141387122021 @default.
W314138712 countsByYear W3141387122022 @default.
W314138712 countsByYear W3141387122023 @default.
W314138712 crossrefType "journal-article" @default.
W314138712 hasAuthorship W314138712A5003385467 @default.
W314138712 hasAuthorship W314138712A5011916555 @default.
W314138712 hasAuthorship W314138712A5043780039 @default.
W314138712 hasBestOaLocation W3141387121 @default.
W314138712 hasConcept C108205863 @default.
W314138712 hasConcept C114614502 @default.
W314138712 hasConcept C121332964 @default.
W314138712 hasConcept C136479403 @default.
W314138712 hasConcept C147120987 @default.
W314138712 hasConcept C184720557 @default.
W314138712 hasConcept C21690051 @default.
W314138712 hasConcept C2524010 @default.
W314138712 hasConcept C2779886137 @default.
W314138712 hasConcept C33923547 @default.
W314138712 hasConcept C45646460 @default.
W314138712 hasConcept C54101563 @default.
W314138712 hasConcept C62520636 @default.
W314138712 hasConcept C69523127 @default.
W314138712 hasConcept C84114770 @default.
W314138712 hasConceptScore W314138712C108205863 @default.
W314138712 hasConceptScore W314138712C114614502 @default.