The discovery of Tc∼80~K superconductivity in pressurized La3Ni2O7 has launched a new platform to study high-temperature superconductivity. Using non-perturbative dynamic cluster approximation quantum Monte Carlo calculations, we characterize the magnetic and superconducting pairing behavior of a realistic bilayer two-orbital Hubbard-Hund model of this system that describes the relevant Ni eg states with physically relevant interaction strengths. We find a leading s± superconducting instability in this model and show that this state primarily arises from interlayer pairing in the d3z2−r2 orbital that is driven by strong interlayer spin-fluctuations in that orbital. These results provide non-perturbative evidence supporting the picture that a simple single-orbital bilayer Hubbard model for the Ni d3z2−r2 orbital provides an excellent low-energy effective description of the superconducting behavior of La3Ni2O7.
@article{arxiv.2506.07741,
title = {Interlayer Pairing in Bilayer Nickelates},
author = {Thomas A. Maier and Peter Doak and Ling-Fang Lin and Yang Zhang and Adriana Moreo and Elbio Dagotto},
journal= {arXiv preprint arXiv:2506.07741},
year = {2025}
}