SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2766702508> ?p ?o ?g. }

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

W2766702508 abstract "We present a simple scheme for implementing a one-dimensional (1D) magnetic-flux lattice of ultracold fermionic spin-1/2 atoms. The resulting tight-binding model supports gapped and gapless topological phases and chiral currents for Meissner and vortex phases. Its single-particle spectra exhibit topological flat bands at small flux, and the flatness sensitively depends on hopping strength. An effective $p$-wave interaction arises in a $s$-wave paired superfluid. Treating atomic internal states as forming a synthetic dimension and balancing the interplay of magnetic flux and Zeeman field, our model describes a tunable topological Fermi superfluid, which paves the way towards experimental explorations of non-Abelian topological matter in 1D atomic quantum gases." @default.
W2766702508 created "2017-11-10" @default.
W2766702508 creator A5037173758 @default.
W2766702508 creator A5071902572 @default.
W2766702508 creator A5074087684 @default.
W2766702508 date "2017-10-30" @default.
W2766702508 modified "2023-10-18" @default.
W2766702508 title "Tunable topological phases with fermionic atoms in a one-dimensional flux lattice" @default.
W2766702508 cites W1155123831 @default.
W2766702508 cites W1443031038 @default.
W2766702508 cites W1448382730 @default.
W2766702508 cites W1508600475 @default.
W2766702508 cites W1527964431 @default.
W2766702508 cites W1528946541 @default.
W2766702508 cites W1597232488 @default.
W2766702508 cites W1739343289 @default.
W2766702508 cites W1757295334 @default.
W2766702508 cites W1767997949 @default.
W2766702508 cites W1834231020 @default.
W2766702508 cites W1973972788 @default.
W2766702508 cites W1979308046 @default.
W2766702508 cites W1979374168 @default.
W2766702508 cites W1986517262 @default.
W2766702508 cites W1989563849 @default.
W2766702508 cites W2003397144 @default.
W2766702508 cites W2003578803 @default.
W2766702508 cites W2005949970 @default.
W2766702508 cites W2012813559 @default.
W2766702508 cites W2019557447 @default.
W2766702508 cites W2033722838 @default.
W2766702508 cites W2055424520 @default.
W2766702508 cites W2055721214 @default.
W2766702508 cites W2070356126 @default.
W2766702508 cites W2094231339 @default.
W2766702508 cites W2095727049 @default.
W2766702508 cites W2115109350 @default.
W2766702508 cites W2116325781 @default.
W2766702508 cites W2118666298 @default.
W2766702508 cites W2135273380 @default.
W2766702508 cites W2141240101 @default.
W2766702508 cites W2152240519 @default.
W2766702508 cites W2160498162 @default.
W2766702508 cites W2166473014 @default.
W2766702508 cites W2175043732 @default.
W2766702508 cites W2211223127 @default.
W2766702508 cites W2255132618 @default.
W2766702508 cites W2321552377 @default.
W2766702508 cites W2329002813 @default.
W2766702508 cites W2511875235 @default.
W2766702508 cites W3106540058 @default.
W2766702508 cites W866678434 @default.
W2766702508 doi "https://doi.org/10.1103/physrevb.96.144517" @default.
W2766702508 hasPublicationYear "2017" @default.
W2766702508 type Work @default.
W2766702508 sameAs 2766702508 @default.
W2766702508 citedByCount "5" @default.
W2766702508 countsByYear W27667025082018 @default.
W2766702508 countsByYear W27667025082020 @default.
W2766702508 countsByYear W27667025082022 @default.
W2766702508 countsByYear W27667025082023 @default.
W2766702508 crossrefType "journal-article" @default.
W2766702508 hasAuthorship W2766702508A5037173758 @default.
W2766702508 hasAuthorship W2766702508A5071902572 @default.
W2766702508 hasAuthorship W2766702508A5074087684 @default.
W2766702508 hasBestOaLocation W27667025082 @default.
W2766702508 hasConcept C104862878 @default.
W2766702508 hasConcept C114614502 @default.
W2766702508 hasConcept C115260700 @default.
W2766702508 hasConcept C121332964 @default.
W2766702508 hasConcept C134306372 @default.
W2766702508 hasConcept C137618395 @default.
W2766702508 hasConcept C148908050 @default.
W2766702508 hasConcept C157479481 @default.
W2766702508 hasConcept C184720557 @default.
W2766702508 hasConcept C199793620 @default.
W2766702508 hasConcept C24057170 @default.
W2766702508 hasConcept C24890656 @default.
W2766702508 hasConcept C25227350 @default.
W2766702508 hasConcept C25536358 @default.
W2766702508 hasConcept C26873012 @default.
W2766702508 hasConcept C2781204021 @default.
W2766702508 hasConcept C33923547 @default.
W2766702508 hasConcept C39197057 @default.
W2766702508 hasConcept C45646460 @default.
W2766702508 hasConcept C52233224 @default.
W2766702508 hasConcept C62520636 @default.
W2766702508 hasConcept C77223115 @default.
W2766702508 hasConcept C84114770 @default.
W2766702508 hasConcept C92542899 @default.
W2766702508 hasConcept C93751859 @default.
W2766702508 hasConceptScore W2766702508C104862878 @default.
W2766702508 hasConceptScore W2766702508C114614502 @default.
W2766702508 hasConceptScore W2766702508C115260700 @default.
W2766702508 hasConceptScore W2766702508C121332964 @default.
W2766702508 hasConceptScore W2766702508C134306372 @default.
W2766702508 hasConceptScore W2766702508C137618395 @default.
W2766702508 hasConceptScore W2766702508C148908050 @default.
W2766702508 hasConceptScore W2766702508C157479481 @default.
W2766702508 hasConceptScore W2766702508C184720557 @default.
W2766702508 hasConceptScore W2766702508C199793620 @default.