Kinetic Energy Driven Ferromagnetic Insulator

Abstract

We construct a minimal model of interacting fermions establishing a ferromagnetic insulating phase. It is based on the Hubbard model on a trimerized triangular lattice in the regime of t |t|>0 with t and t the intra- and inter-trimer hopping amplitudes, respectively. At the 13-filling, each trimer becomes a triplet spin-1 moment, and the inter-trimer superexchange is ferromagnetic with J =- 227t 2t in the limit of U/t=+∞. As U/t becomes finite, the antiferromagnetic superexchange competes with the ferromagnetic one. The system enters into a frustrated antiferromagnetic insulator when λ >U/t 1 where λ is a constant at the order of 10. In contrast, a similar analysis to the trimerized Kagome lattice shows that only the antiferromagnetic superexchange exists at 13-filling.