Chiral spin density wave order on frustrated honeycomb and bilayer triangle lattice Hubbard model at half-filling

Abstract

We study the Hubbard model on the frustrated honeycomb lattice with nearest-neighbor t1 and second nearest-neighbor hopping t2, which is isomorphic to the bilayer triangle lattice, using the SU(2)-invariant slave boson theory. We show that the Coulomb interaction U induces antiferromagnetic (AF) chiral spin-density wave (-SDW) order in a wide range of =t2/t1 where both the two-sublattice AF order at small and the decoupled three-sublattice 120 order at large are strongly frustrated, leading to three distinct phases with different anomalous Hall responses. We find a continuous transition from a -SDW semimetal with anomalous Hall effect to a topological chiral Chern insulator exhibiting quantum anomalous Hall effect, followed by a discontinuous transition to a -SDW insulator with zero total Chern number but anomalous ac Hall effect.The -SDW is likely a generic phase of strongly correlated and highly frustrated hexagonal lattice electrons.