Isotropic 6 Ground State in Caged Compound NdRu2Zn20

Abstract

The magnetic susceptibility , the magnetization M, and the specific heat C were measured for the caged cubic compound NdRu2Zn20 at temperatures down to 0.5 K in the magnetic field H along the three crystallographic principal axes, [100], [110], and [111]. The ferromagnetic phase transition was observed at the Curie temperature T C=1.9 K in both the temperature dependence of (T) and C(T). Below T C, the magnetization curves M(H) show very weak magnetic anisotropy, and the C(T) curves in the fields along the three principal axes show no magnetic anisotropy both below and above T C. The easy direction of magnetization at 0.5 K changes from the [111] direction in 0 T to the [110] diretion in 7 T. We analyzed these characteristic behaviors theoretically taking into account the crystalline-electric-field energy, the magnetic exchange interaction, and the Zeeman energy. It was found that these features are originated from the isotropic 6 ground state mixing with the magnetic 8(1) excited state. The temperature and the magnetic field dependences of M(T,H) and C(T,H) are quantitatively well analyzed by this theoretical calculation.