Magnetic and Dielectric Properties of RbCoBr₃ Inspected from Nonmagnetic Impurity Effect

Abstract

Through magnetic and dielectric measurements, a simultaneous phase transition of spin and lattice systems observed previously at 37.2 K of RbCoBr₃ have been investigated by doping with nonmagnetic Mg impurities. A mutual reduction in the ferroelectric Curie temperature T_C and the Néel temperature T_N due to the enhancement of Mg doping confirms the occurrence of the synergistic ordering of both. A broad peak of the real part of dielectric constant along the c axis, ε^′_c(T), at approximately 32 K of the pure system splits into two sharp peaks in mixed systems. This suggests the presence of successive structural phase transitions at around this temperature. A probable sequence of crystal and magnetic structures was discussed for the successive phase transitions of RbCo_1−xMg_xBr₃. The interplay between the spin and lattice variables of RbCoBr₃ was interpreted by taking account of spin-dependent polarizability and spin-dependent spontaneous polarization. A dielectric anomaly observed at 9.0 K in RbCoBr₃, where ε^′_c(T) has a sharp peak, was ascribed to the occurrence of another structural transition.