Isolated flat bands and spin-1 conical bands in two-dimensional lattices | |
Article | |
关键词: QUANTIZED HALL CONDUCTANCE; ELECTRONIC-PROPERTIES; KAGOME LATTICE; LANDAU-LEVELS; | |
DOI : 10.1103/PhysRevB.82.075104 | |
来源: SCIE |
【 摘 要 】
Dispersionless bands, such as Landau levels, serve as a good starting point for obtaining interesting correlated states when interactions are added. With this motivation in mind, we study a variety of dispersionless (flat) band structures that arise in tight-binding Hamiltonians defined on hexagonal and kagome lattices with staggered fluxes. The flat bands and their neighboring dispersing bands have several notable features: (a) flat bands can be isolated from other bands by breaking time-reversal symmetry, allowing for an extensive degeneracy when these bands are partially filled; (b) an isolated flat band corresponds to a critical point between regimes where the band is electron-like or hole-like, with an anomalous Hall conductance that changes sign across the transition; (c) when the gap between a flat band and two neighboring bands closes, the system is described by a single spin-1 conical-like spectrum, extending to higher angular momentum the spin-1/2 Dirac-like spectra in topological insulators and graphene; (d) some configurations of parameters admit two isolated parallel flat bands, raising the possibility of exotic heavy excitons; and (e) we find that the Chern number of the flat bands, in all instances that we study here, is zero.
【 授权许可】
Free