Metallic ferromagnetism supported by a single band in a multi-band Hubbard model

Abstract

We construct a multi-band Hubbard model on the lattice obtained by "decorating" a closely packed d-dimensional lattice M (such as the triangular lattice) where d2. We take the limits in which the Coulomb interaction and the band gap become infinitely large. Then there remains only a single band with finite energy, on which electrons are supported. Let the electron number be Ne=|M|-Nh, where |M| corresponds to the electron number which makes the lowest (finite energy) band half-filled, and Nh is the number of "holes". It is expected that the model exhibits metallic ferromagnetism if Nh/|M| is nonvanishing but sufficiently small. We prove that the ground states exhibit saturated ferromagnetism if Nh(const.)|M|2/(d+2), and exhibit (not necessarily saturated) ferromagnetism if Nh(const.)|M|(d+1)/(d+2). This may be regarded as a rigorous example of metallic ferromagnetism provided that the system size |M| is not too large.