Spin correlations in La3Ni2O7 thin films

Abstract

The discovery of ambient-pressure superconductivity with Tc,onset > 40 K in La3Ni2O7 (LNO) thin films grown on the SrLaAlO4 (SLAO) substrate with compressive (≈-2\%) epitaxial strain provides a unique platform for investigating the superconducting mechanism in nickelate superconductors. Here, we use resonant inelastic X-ray scattering (RIXS) to unveil the dispersive spin excitations in the LNO/SLAO thin film and establish the strain dependence of the electronic and spin excitations in LNO thin films with strain ranging from ≈-2\% to +1.9\%. Compared with bulk LNO, LNO/SLAO exhibits similar dd excitations and spin dynamics, but with a larger spin-excitation bandwidth, whereas tensile-strained LNO/SrTiO3 exhibits a marked suppression of both the spin excitations and the Ni 3dz2-derived dd excitations. This evolution reflects a strain-tuned interlayer exchange interaction Jz and Ni 3dz2-O 2pz hybridization. Our results demonstrate how epitaxial strain modulates the interlayer magnetic coupling and are consistent with scenarios in which the interlayer antiferromagnetic superexchange interaction promotes interlayer pairing in bilayer nickelates.