Dielectric Anomaly in the Quasi-One-Dimensional Frustrated Spin-1/2 System Rb2(Cu1-xMx)2Mo3O12 (M=Ni and Zn)

Abstract

Dielectric and magnetic properties have been studied for poly-crystalline samples of quasi-one-dimensional frustrated spin-1/2 system Rb2(Cu1-xMx)2Mo3O12(M=Ni and Zn) which does not exhibit a three-dimensional magnetic transition due to quantum spin fluctuation and low dimensionality. A broad peak in the magnetic susceptibility - temperature curves originated from a short range helical ordering at low temperature is suppressed by the Ni and Zn substitution for Cu sites. The capacitance is found to anomalously increase with decreasing T below ~50 K, which is also suppressed by the impurity doping. The behavior of the anomalous capacitance component is found to be strongly connected with that of the magnetic susceptibility for Rb2(Cu1-xMx)2Mo3O12 which indicates that the low-temperature dielectric response is driven by the magnetism.