Variational Quantum Monte Carlo investigations of the superconducting pairing in La3Ni2O7

Abstract

We investigate the pairing symmetry in the novel superconductor La3Ni2O7 under pressure by the non-perturbative variational quantum Monte Carlo. Within the bilayer Hubbard model and extended t-J model with two orbitals in the Eg doublet, we find the local strong correlation triggers s-wave Cooper pairing, with sign change of the gap function among the various Fermi pockets, while the dx2-y2-wave pairing is generically disfavored. This is in agreement with the results from functional renormalization group applied in the weak up to moderate correlation limit. We find the 3d3z2-r2 orbital plays a leading role in the superconducting pairing. We also demonstrate the finite intra-orbital double occupancy even in the strong correlation limit, shedding light on the itinerant versus local moment picture of the electrons in this material.