Theoretical investigation of the superconducting pairing symmetry in a bilayer two-orbital model of pressurized La3Ni2O7

Abstract

We investigate the superconducting pairing symmetry in pressurized La3Ni2O7 based on a bilayer two-orbital model. There are two symmetric bands α and γ, as well as two antisymmetric ones β and δ. It is found that the γ band induces considerable ferromagnetic spin fluctuation and prefers an odd-frequency, s-wave spin triplet pairing state. The addition of the other bands gradually suppresses the ferromagnetic spin fluctuation and enhances the antiferromagnetic ones. The superconducting pairing then evolves from a spin triplet into a d-wave spin singlet, and finally into an s-wave one. The competition between the d-wave and s-wave pairings relies on whether the ferromagnetic spin fluctuation is suppressed completely or not.

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