Low Curie-temperature ferromagnetic phase in SmPt2Cd20 possibly accompanied by strong quantum fluctuations

Abstract

Electrical resistivity, magnetization and specific heat have been measured for single crystals of SmPt2Cd20. It has been found that SmPt2Cd20 exhibits a ferromagnetic (FM) transition at T C = 0.64 K, the lowest among cubic compounds. Specific heat divided by temperature increases with decreasing temperature even below T C and attains 4.5 J/mol K2 at 0.26 K, implying substantial magnetic quantum fluctuations. An analysis of the magnetic entropy suggests the crystalline-electric-field splitting of the Sm J = 5/2 multiplet with a 7 doublet ground state and a 8 quartet excited state (the excitation energy of 30 K). The electrical resistivity shows a power-law behavior with T0.74 below 2 K without showing any noticeable anomaly at T C. SmPt2Cd20 is regarded as a rare cubic system that is located in the vicinity of a FM quantum critical point.