Doped AB2 Hubbard Chain: Spiral, Nagaoka and RVB States, Phase Separation and Luttinger Liquid Behavior

Abstract

We present an extensive numerical study of the Hubbard model on the doped AB2 chain, both in the weak coupling and the infinite-U limit. Due to the special unit cell topology, this system displays a rich variety of phases as function of hole doping (δ) away from half-filling. Near half-filling, spiral states develop in the weak coupling regime, while Nagaoka itinerant ferromagnetism is observed in the infinite-U limit. For higher doping the system phase-separates before reaching a Mott insulating phase of short-range RVB states at δ=1/3. Moreover, for δ>1/3 we observe a crossover, which anticipates the Luttinger liquid behavior for δ > 2/3.