Stability of the Local Ni2+ Electronic Structure to A-site Disorder in the Pyrochlore Antiferromagnet NaCaNi2F7

Abstract

NaCaNi2F7 is a unique example of spin-1 Heisenberg antiferromagnet on the pyrochlore lattice, but the presence of Na1+/Ca2+ A-site disorder complicates the local electronic and magnetic environment of the Ni2+ B-site. We utilize resonant inelastic X-ray scattering (RIXS) to study the influence of A-site disorder on the B-site electronic structure of NaCaNi2F7. Ni L-edge RIXS measurements reveal a Ni2+ electronic structure in nearly ideal octahedral coordination, with only a small trigonal compression (δ = -200\;meV) required to capture all spectral features. Within the D3d symmetry of the Ni local environment, we extract an anisotropic g-factor of g = 2.26 and g = 2.27, and a corresponding paramagnetic moment of μeff=3.2\;μB. To simulate disorder, RIXS spectra were calculated with realistic distributions of crystal field parameters; however, these spectra are invariant relative to a disorder-free model, demonstrating the robustness of the Ni2+ electronic environment to the A-site disorder, within the resolution of our measurement.