摘要
We report the temperature-dependent resistivity and dielectric function (1 kHz- 3 MHz) of a charge ordering system La1.5Sr0.5NiO4-δ. The primary data of ac impedance was measured by a four-terminal pair arrangement. Above 180K, the resistivity is independent of frequency. At lower temperatures, the dielectric function couM not be fitted by a Debye model with a single relaxation time, it should have a distribution. At T = 130 K, there is a sudden increase in the p - T relation, meanwhile an anomaly dielectric response occurs on the temperature dependant dielectric spectrum in the whole measured frequency range, in which the dielectric constant has a high value even at high frequency region. Our analysis suggests that the current system would be more consistent with the Zener polaron model.
We report the temperature-dependent resistivity and dielectric function (1 kHz- 3 MHz) of a charge ordering system La1.5Sr0.5NiO4-δ. The primary data of ac impedance was measured by a four-terminal pair arrangement. Above 180K, the resistivity is independent of frequency. At lower temperatures, the dielectric function couM not be fitted by a Debye model with a single relaxation time, it should have a distribution. At T = 130 K, there is a sudden increase in the p - T relation, meanwhile an anomaly dielectric response occurs on the temperature dependant dielectric spectrum in the whole measured frequency range, in which the dielectric constant has a high value even at high frequency region. Our analysis suggests that the current system would be more consistent with the Zener polaron model.
基金
Supported by the National Natural Science Foundation of China under Grant No 10704054, the Tianjin Key Project for Materials Physics and Chemistry, the Project of National Innovation Experiment Program for University Students.
