Phonons reflect dynamic spin-state order in LaCoO3

Abstract

We investigate lattice dynamics in LaCoO3 using inelastic neutron and x-ray scattering over T = 2-650\,K, spanning the spin-state crossover at T1 ≈ 100\,K and the insulator--metal transition at T2 ≈ 550\,K. Comparison with quasi-harmonic ab-initio lattice-dynamical calculations helps reveal anomalous softening of a ≈ 10\,meV oxygen phonon, confined to the temperature interval T1 ≤ T ≤ T2 and localized in momentum space at qSSO = ( 12,12,12 )c. This wave vector corresponds to the spin-state ordering originally proposed by Goodenough [J. Phys. Chem. Solids 6, 287-297 (1958)]. Our results therefore provide momentum-resolved evidence for dynamic correlations of high-spin and low-spin Co3+ states in LaCoO3, linking spin-state fluctuations to anomalous phonon renormalization.