Robust s-wave pairing in a bilayer two-orbital model of pressurized La3Ni2O7 without the γ Fermi surface

Abstract

We studied the superconducting pairing symmetry based on a newly constructed tight-binding model of La3Ni2O7 under pressure, where the γ band sinks below the Fermi level and does not form the Fermi surface. The superconducting pairing symmetry is s-wave and is robust against the variation of the interaction strength. In this model, although the γ and δ bands are away from the Fermi level, the superconducting pairing function on them is not tiny. Instead, since the top of the γ band and bottom of the δ band are both located at 500 meV away from the Fermi level, and they are almost nested by the peak structure in the spin fluctuation, thus by forming an anti-phase pairing function on them, these two bands act constructively to superconductivity. Finally with detailed derivation and numerical calculation, we demonstrate that the Fermi surface approximated Eliashberg equation may lead to deviation of the pairing symmetry.

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