Orbital-selective correlation effects and superconducting pairing symmetry in a multiorbital t-J model for bilayer nickelates

Abstract

The recent discovery of superconductivity in La3Ni2O7 raises key questions about its mechanism and the nature of pairing symmetry. This system is believed to be described by a bilayer two-orbital Hubbard model. The considerations of orbital-selective Mott correlations motivate a bilayer two-orbital t-J model and, accordingly, we study the superconducting pairing in this model. We obtain an overall phase diagram of superconductivity, where the leading channel has either extended s-wave or dx2-y2-wave symmetry. Our analysis highlights how the orbital-selective correlations affect the superconducting pairing via the interlayer exchange couplings and low-energy electronic structure. In particular, we find that the dominant orbital for the pairing may change between z2 and x2-y2 when the position of the bonding z2 band is varied by tuning either the c-axis lattice constant or electron concentration strength. We discuss the implications of these results for the superconductivity in both bulk La3Ni2O7 and its thin film counterpart.

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