Magnetic phase diagram of the Hubbard model in the Lieb lattice

Abstract

We study the mean-field phase diagram of the repulsive Hubbard model in the Lieb lattice. Far from half-filling, the most stable phases are paramagnetism for low on-site interaction U/t and ferromagnetism for high U/t, as in the case of the mean-field phase diagram of the square lattice Hubbard model obtained by Dzierzawa [Dzierzawa1992]. At half-filling, the ground state was found to be ferrimagnetic [a (π,π) spiral phase], in agreement with a theorem by Lieb [Lieb1989]. The total magnetization approaches Lieb's prediction as U/t becomes large. As we move away from half-filling, this ferrimagnetic phase becomes a (q1,q1) spiral phase with q1 ≈ π and then undergoes a series of first-order phase transitions, (q1,q1) → (q1,q2) → (q1,0), with q2 ≈ π/2, before becoming ferromagnetic at large U/t or paramagnetic at low U/t.