极性介质热刺激电流与偶极子分立激活能分布

应用科学学报 ›› 1997, Vol. 15 ›› Issue (3): 291-298.

极性介质热刺激电流与偶极子分立激活能分布

刘付德, 凌志远, 熊茂仁

华南理工大学

收稿日期:1995-12-19 修回日期:1996-05-16 出版日期:1997-09-30 发布日期:1997-09-30
作者简介:刘付德:副教授,华南理工大学无机系,广州 510641

THE DISCRETE ACTIVATION ENERGY DENSITY DISTRIBUTION AND THERMALLY STIMULATED DEPOLARIZATION CURRENT OF DIPOLES IN POLAR DIELECTRIC

LIU FUDE, LING ZHIYUAN, XIONG MAOREN

South China University of Technology, Guangzhou 510641

Received:1995-12-19 Revised:1996-05-16 Online:1997-09-30 Published:1997-09-30

摘要/Abstract

摘要： 该文从单一激活能电偶极子去极化对热刺激电流贡献的物理过程出发,用数值计算方法计算了多激活能级电偶极子去极化对电流的贡献.结果表明当电偶极子间激活能之差小于2kT时,电偶板子可以看作以能级连续分布的形式存在;如果大于2kT,则可按分立存在形式处理.对热刺激电流方程中的超越函数进行分析后,导出了直接从电偶极子热刺激电流上获得其激活能的方法,其与数值计算结果符合得相当好.

关键词: 激活能, 极性介质, 热刺激电流, 电偶极子

Abstract: Having regard to the physical process of thermally stimulated depolariza-tion of the dipoles with a single activation energy, this paper obtaimed the thermally stimulated depolarization current (TSDC) of multi-or continous distribution activation energy dipoles. Numerical calculation results show that if the activation energy differ-ence between dipoles is less than 2kT, the dipoles can be considered to be existing in theform of continuous activation energy distribution, and if larger than 2kT, to be in the form of discrete distribution. Further work on transcendental fimction in TSDC equation has provided a method for directly calculating activation energy from the TSDC of dipoles, which is consistent with the exact numerical calculation results.

Key words: electrical dipoles, polar dielectric, thermally stimulated depolarization curreut, activation energy

刘付德, 凌志远, 熊茂仁. 极性介质热刺激电流与偶极子分立激活能分布[J]. 应用科学学报, 1997, 15(3): 291-298.

LIU FUDE, LING ZHIYUAN, XIONG MAOREN. THE DISCRETE ACTIVATION ENERGY DENSITY DISTRIBUTION AND THERMALLY STIMULATED DEPOLARIZATION CURRENT OF DIPOLES IN POLAR DIELECTRIC[J]. Journal of Applied Sciences, 1997, 15(3): 291-298.