SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2068203367> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2068203367 abstract "Recent advances in ultracold atomic Fermi gases make it possible to achieve a fermionic superfluid with multiple spin components. In this context, any mean-field description is expected to fail, owing to the presence of tightly bound clusters or molecules that consist of more than two particles. Here we present a detailed study of a strongly interacting multicomponent Fermi gas in a highly elongated or quasi-one-dimensional harmonic trap, which could be readily obtained in experiment. By using the exact Bethe ansatz solution and a local density approximation treatment of the harmonic trap, we investigate the equation of state of the multicomponent Fermi gas in both a homogeneous and trapped environment, as well as the density profiles and low-energy collective modes. The binding energy of multicomponent bound clusters is also given. We show that there is a peak in the collective mode frequency at the critical density for a deconfining transition to a many-body state that is analogous to the quark color superconductor state expected in neutron stars." @default.
W2068203367 created "2016-06-24" @default.
W2068203367 creator A5048769462 @default.
W2068203367 creator A5065101788 @default.
W2068203367 creator A5065851954 @default.
W2068203367 date "2008-01-29" @default.
W2068203367 modified "2023-09-27" @default.
W2068203367 title "Multicomponent strongly attractive Fermi gas: A color superconductor in a one-dimensional harmonic trap" @default.
W2068203367 cites W1540523483 @default.
W2068203367 cites W1584473279 @default.
W2068203367 cites W1667480103 @default.
W2068203367 cites W1941505088 @default.
W2068203367 cites W1967377291 @default.
W2068203367 cites W1971287055 @default.
W2068203367 cites W1971821897 @default.
W2068203367 cites W1973142889 @default.
W2068203367 cites W1996692332 @default.
W2068203367 cites W1998509836 @default.
W2068203367 cites W1998736023 @default.
W2068203367 cites W2000530877 @default.
W2068203367 cites W2002439297 @default.
W2068203367 cites W2002542393 @default.
W2068203367 cites W2004164547 @default.
W2068203367 cites W2004814386 @default.
W2068203367 cites W2005583789 @default.
W2068203367 cites W2007391198 @default.
W2068203367 cites W2007828593 @default.
W2068203367 cites W2007859648 @default.
W2068203367 cites W2011026338 @default.
W2068203367 cites W2011952009 @default.
W2068203367 cites W2029333308 @default.
W2068203367 cites W2034210909 @default.
W2068203367 cites W2035747972 @default.
W2068203367 cites W2036287475 @default.
W2068203367 cites W2036733217 @default.
W2068203367 cites W2039293890 @default.
W2068203367 cites W2040434638 @default.
W2068203367 cites W2045649013 @default.
W2068203367 cites W2046239306 @default.
W2068203367 cites W2052372389 @default.
W2068203367 cites W2055507341 @default.
W2068203367 cites W2058694760 @default.
W2068203367 cites W2060618061 @default.
W2068203367 cites W2063156343 @default.
W2068203367 cites W2064425721 @default.
W2068203367 cites W2065452205 @default.
W2068203367 cites W2067440567 @default.
W2068203367 cites W2067756838 @default.
W2068203367 cites W2069586592 @default.
W2068203367 cites W2070256933 @default.
W2068203367 cites W2070673282 @default.
W2068203367 cites W2075920130 @default.
W2068203367 cites W2078791968 @default.
W2068203367 cites W2079027357 @default.
W2068203367 cites W2081768803 @default.
W2068203367 cites W2089024180 @default.
W2068203367 cites W2092913833 @default.
W2068203367 cites W2095579432 @default.
W2068203367 cites W2101958319 @default.
W2068203367 cites W2104339949 @default.
W2068203367 cites W2105566977 @default.
W2068203367 cites W2117862525 @default.
W2068203367 cites W2143835949 @default.
W2068203367 cites W2149869967 @default.
W2068203367 cites W2161910069 @default.
W2068203367 cites W2169539373 @default.
W2068203367 cites W2172104169 @default.
W2068203367 cites W2268807705 @default.
W2068203367 cites W2963057557 @default.
W2068203367 cites W3103886755 @default.
W2068203367 doi "https://doi.org/10.1103/physreva.77.013622" @default.
W2068203367 hasPublicationYear "2008" @default.
W2068203367 type Work @default.
W2068203367 sameAs 2068203367 @default.
W2068203367 citedByCount "31" @default.
W2068203367 countsByYear W20682033672012 @default.
W2068203367 countsByYear W20682033672013 @default.
W2068203367 countsByYear W20682033672014 @default.
W2068203367 countsByYear W20682033672016 @default.
W2068203367 countsByYear W20682033672018 @default.
W2068203367 countsByYear W20682033672019 @default.
W2068203367 countsByYear W20682033672020 @default.
W2068203367 countsByYear W20682033672021 @default.
W2068203367 crossrefType "journal-article" @default.
W2068203367 hasAuthorship W2068203367A5048769462 @default.
W2068203367 hasAuthorship W2068203367A5065101788 @default.
W2068203367 hasAuthorship W2068203367A5065851954 @default.
W2068203367 hasBestOaLocation W20682033672 @default.
W2068203367 hasConcept C121332964 @default.
W2068203367 hasConcept C127934551 @default.
W2068203367 hasConcept C130979935 @default.
W2068203367 hasConcept C14103023 @default.
W2068203367 hasConcept C142941502 @default.
W2068203367 hasConcept C147120987 @default.
W2068203367 hasConcept C151730666 @default.
W2068203367 hasConcept C174084160 @default.
W2068203367 hasConcept C184779094 @default.
W2068203367 hasConcept C186769553 @default.
W2068203367 hasConcept C192887742 @default.
W2068203367 hasConcept C204514805 @default.