Discriminating Gap Symmetries of Superconducting La3Ni2O7

Abstract

The discovery of high-Tc superconductor in Ruddlesden-Popper nickelate materials represented by La3Ni2O7 has opened new directions in the quest for unconventional superconductivity. A central unresolved issue concerns the pairing symmetry of the superconducting order. In this paper, we model the superconducting order of La3Ni2O7 using the established Fermi surface structure together with phenomenological pairing functions belonging to s and d-wave symmetry classes, which are the leading possibilities in the current debate. We compute several experimentally accessible observables-including tunneling density of states, point contact spectroscopy, superfluid density, and Raman spectroscopy-each of which exhibits distinct characteristics for different gap symmetries. These quantities provide a concrete and experimentally testable route for identifying the pairing symmetry of La3Ni2O7 and for clarifying the microscopic nature of nickelate superconductivity.

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