Singlet magnetism in intermetallic UGa2 unveiled by inelastic x-ray scattering

Abstract

Using high resolution tender-x-ray resonant inelastic scattering and hard-x-ray non-resonant inelastic scattering beyond the dipole limit we were able to detect electronic excitations in intermetallic UGa2 that are highly atomic in nature. Analysis of the spectral lineshape reveals that the local 5f2 configuration characterizes the correlated nature of this ferromagnet. The orientation and directional dependence of the spectra indicate that the ground state is made of the 1 singlet and/or 6 doublet symmetry. With the ordered moment in the ab plane, we infer that the magnetism originates from the higher lying 6 doublet being mixed with the 1 singlet due to inter-site exchange, qualifying UGa2 to be a true quantum magnet. The ability to observe atomic excitations is crucial to resolve the on-going debate about the degree of localization versus itineracy in U intermetallics.