SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313264883> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W4313264883 abstract "The strongly correlated bosons in flat-band systems are an excellent platform to study a wide range of quantum phenomena. Such systems can be realized in optical lattices filled with ultracold atomic gases. In this paper we study the Bose-Hubbard model in the Lieb lattice by means of the time-dependent Gutzwiller mean-field approach. We find that in the Mott insulator phase the excitation modes are gapped and display purely particle or purely hole character, while in the superfluid phase the excitation spectrum is gapless. The geometry of the Lieb lattice leads to a nonuniform order parameter and nonuniform oscillation energy in the ground state. This results in additional anticrossings between dispersive bands in the excitation spectra, while the flat bands remain insensitive to this effect. We analyze the oscillations of the order parameter on the sublattices as well as the particle-hole character of the excitations. For certain model parameters we find simultaneous pure phase and pure amplitude oscillations within the same mode, separated between the sublattices. Also, we propose a simple method to differentiate between the hole and particle superfluid regions in the Lieb lattice by in situ measurement of the atom population on the sublattices." @default.
W4313264883 created "2023-01-06" @default.
W4313264883 creator A5050453212 @default.
W4313264883 creator A5064200617 @default.
W4313264883 date "2022-12-19" @default.
W4313264883 modified "2023-09-25" @default.
W4313264883 title "Excitation spectra of strongly interacting bosons in the flat-band Lieb lattice" @default.
W4313264883 cites W1563386299 @default.
W4313264883 cites W1897230499 @default.
W4313264883 cites W1945291482 @default.
W4313264883 cites W1964312655 @default.
W4313264883 cites W1967051357 @default.
W4313264883 cites W1967336145 @default.
W4313264883 cites W1967384198 @default.
W4313264883 cites W1967854401 @default.
W4313264883 cites W1973293392 @default.
W4313264883 cites W1973607684 @default.
W4313264883 cites W2005779883 @default.
W4313264883 cites W2005949970 @default.
W4313264883 cites W2015239020 @default.
W4313264883 cites W2017209426 @default.
W4313264883 cites W2020293442 @default.
W4313264883 cites W2021431123 @default.
W4313264883 cites W2027406040 @default.
W4313264883 cites W2035682254 @default.
W4313264883 cites W2036015804 @default.
W4313264883 cites W2043385019 @default.
W4313264883 cites W2043588066 @default.
W4313264883 cites W2045272499 @default.
W4313264883 cites W2053159135 @default.
W4313264883 cites W2056511881 @default.
W4313264883 cites W2058154968 @default.
W4313264883 cites W2062701104 @default.
W4313264883 cites W2064410980 @default.
W4313264883 cites W2065675569 @default.
W4313264883 cites W2066009637 @default.
W4313264883 cites W2072353673 @default.
W4313264883 cites W2081606588 @default.
W4313264883 cites W2088593317 @default.
W4313264883 cites W2090626648 @default.
W4313264883 cites W2090912118 @default.
W4313264883 cites W2091676174 @default.
W4313264883 cites W2096325810 @default.
W4313264883 cites W2163000554 @default.
W4313264883 cites W2174171319 @default.
W4313264883 cites W2180103011 @default.
W4313264883 cites W2260202333 @default.
W4313264883 cites W2262767520 @default.
W4313264883 cites W2270797738 @default.
W4313264883 cites W2289938490 @default.
W4313264883 cites W2293075778 @default.
W4313264883 cites W2315398935 @default.
W4313264883 cites W2336837136 @default.
W4313264883 cites W2345990205 @default.
W4313264883 cites W2586814236 @default.
W4313264883 cites W2593813618 @default.
W4313264883 cites W2609285559 @default.
W4313264883 cites W2760528499 @default.
W4313264883 cites W2785364763 @default.
W4313264883 cites W2808494774 @default.
W4313264883 cites W2896413839 @default.
W4313264883 cites W2946002579 @default.
W4313264883 cites W2948321906 @default.
W4313264883 cites W2949650431 @default.
W4313264883 cites W2949736441 @default.
W4313264883 cites W2962881244 @default.
W4313264883 cites W3012570249 @default.
W4313264883 cites W3024619984 @default.
W4313264883 cites W3043617259 @default.
W4313264883 cites W3047000178 @default.
W4313264883 cites W3099054518 @default.
W4313264883 cites W3102604548 @default.
W4313264883 cites W3103311876 @default.
W4313264883 cites W3104810891 @default.
W4313264883 cites W3104957261 @default.
W4313264883 cites W3106655687 @default.
W4313264883 cites W3208090567 @default.
W4313264883 cites W3208869426 @default.
W4313264883 cites W4254085758 @default.
W4313264883 cites W1964776219 @default.
W4313264883 doi "https://doi.org/10.1103/physrevb.106.224514" @default.
W4313264883 hasPublicationYear "2022" @default.
W4313264883 type Work @default.
W4313264883 citedByCount "2" @default.
W4313264883 countsByYear W43132648832023 @default.
W4313264883 crossrefType "journal-article" @default.
W4313264883 hasAuthorship W4313264883A5050453212 @default.
W4313264883 hasAuthorship W4313264883A5064200617 @default.
W4313264883 hasBestOaLocation W43132648832 @default.
W4313264883 hasConcept C106074065 @default.
W4313264883 hasConcept C111776688 @default.
W4313264883 hasConcept C121332964 @default.
W4313264883 hasConcept C136479403 @default.
W4313264883 hasConcept C136766821 @default.
W4313264883 hasConcept C144024400 @default.
W4313264883 hasConcept C149923435 @default.
W4313264883 hasConcept C180205008 @default.
W4313264883 hasConcept C184779094 @default.
W4313264883 hasConcept C24890656 @default.
W4313264883 hasConcept C25536358 @default.