Unveiling orbital landscapes in strongly correlated bulk nickelates with s-NIXS

Abstract

We leverage s-orbital non-resonant inelastic X-ray scattering (s-NIXS) to perform orbital imaging on three bulk rare-earth nickelates spanning a range of formal nickel valence (3d electron filling) from Ni3+ (3d7) to Ni1+ (3d9). Our results directly reveal the ground states of these compounds all with minimal theoretical input. In particular, we demonstrate the low-spin orbital configuration of trivalent LaNiO3, the dx2-y2 configuration of monovalent LaNiO2, and resolve the effective eg crystal field splitting in the distorted octahedral environment of divalent La2NiO4. This work illustrates the potential of s-NIXS to study the ground state and excited states of strongly correlated materials without needing complex theoretical analysis of spectroscopic data.