Ideal Chern bands with strong short-range repulsion: Applications to correlated metals, superconductivity, and topological order

Abstract: Motivated by recent experiments on correlated van der Waals materials, including twisted and rhombohedral graphene and twisted WSe2, we perform an analytical and numerical study of the effects of strong on-site and short-range interactions in fractionally filled ideal Chern bands. We uncover an extensive nontrivial ground state manifold within the band filling range 0<ν<1 and introduce a general principle, the “three-rule,” for combining flat band wave functions, which governs their zero-energy property … Show more