Phonons, Q-dependent Kondo spin fluctuations, and 4f/phonon resonance in YbAl3

Abstract

The intermediate valence (IV) compound YbAl3 exhibits nonintegral valence (Yb 4f14-nf (5d6s)z where z = 2+nf = 2.75) in a moderately heavy (m* = 20-30me) ground state with a large Kondo temperature (TK ~ 500-600K). We have measured the magnetic fluctuations and the phonon spectra on single crystals of this material by time-of-flight inelastic neutron scattering (INS) and inelastic x-ray scattering (IXS). We find that at low temperature, the Kondo-scale spin fluctuations have a momentum (Q) dependence similar to that seen recently in the IV compound CePd3 and which can be attributed to particle-hole excitations in a coherent itinerant 4f correlated ground state. The Q-dependence disappears as the temperature is raised towards room temperature and the 4f electron band states become increasingly incoherent. The measured phonons can be described adequately by a calculation based on standard DFT+U density functional theory, without recourse to considering 4f correlations dynamically. A low temperature magnetic peak observed in the neutron scattering at ~ 30meV shows dispersion identical to an optic phonon branch. This 4f/phonon resonance disappears for T > 150K. The phonons appear to remain unaffected by the resonance. We discuss several possibilities for the origin of this unusual excitation, including the idea that it arises from the large amplitude beating of the light Al atoms against the heavy Yb atoms, resulting in a dynamic 4f/3p hybridization.