Basal-Plane Nonlinear Susceptibility: A Direct Probe of the Single-Ion Physics in URu2Si2

Abstract

The microscopic nature of the hidden order state in URu2Si2 is dependent on the low-energy configurations of the uranium ions, and there is currently no consensus on whether it is predominantly 5f2 or 5f3. Here we show that measurement of the basal-plane nonlinear susceptibility can resolve this issue; its sign at low-temperatures is a distinguishing factor. We calculate the linear and nonlinear susceptibilities for specific 5f2 and 5f3 crystal-field schemes that are consistent with current experiment. Because of its dual magnetic and orbital character, a 5 magnetic non-Kramers doublet ground-state of the U ion can be identified by 1c(T) 3(T) where we have determined the constant of proportionality for URu2Si2.