From Ferrimagnetic Insulator to superconducting Luther-Emery Liquid: A DMRG Study of the Two-Leg Lieb Lattice

Abstract

Motivated by recent experiments on ultracold fermionic spin-1/2 6Li atoms in a Lieb lattice at various Hubbard repulsion U and filling fractions n (Lebrat et al., arXiv:2404.17555), we conduct a density matrix renormalization group (DMRG) analysis of the Hubbard model on a two-leg Lieb ladder. At half-filling, we find a ferrimagnetic Mott insulating ground state, consistent with Lieb's theorem. Away from half-filling, a state with finite total spin S2 ≠ 0 and vanishing charge gap persists down to filling nc ≈ 2/3. For lower, incommensurate fillings, the system is described by a Luttinger liquid with one charge and one spin mode. Intriguingly, in a narrow window near nc = 2/3, close to the onset of ferromagnetic order, we identify a superconducting Luther-Emery phase with dominant sxy-wave pairing.