Flat bands with non-trivial topology in three dimensions
arXiv:1111.1447 · doi:10.1103/PhysRevB.85.041104
Abstract
We construct a simple model for electrons in a three-dimensional crystal where a combination of short-range hopping and spin-orbit coupling results in nearly flat bands characterized by a non-trivial Z2 topological index. The flat band is separated from other bands by a bandgap much larger than the bandwidth. We discuss the fate of the many-body ground state of electrons in the flat band in the presence of repulsive interactions at partial filling and conjecture that it may become a three-dimensional fractional topological insulator if conventional magnetic instabilities can be avoided.
5 pages, 3 figures; references updated, minor changes to improve clarity of text, version to appear in PRB/RC