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Electrical conductivity enhanced dielectric and ferroelectric properties of interface-coupled ferroelectric superlattices

机译：电导率增强了界面耦合铁电超晶格的介电和铁电性能

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We have developed a model to theoretically study the interplay of the effects of interfacial coupling and electrical conductivity on the ferroelectric and dielectric properties of superlattices consisting of alternating ferroelectric and paraelectric layers based on the Landau-Ginzburg theory. The qualitative predictions of the model are compared with recent experimental results for “symmetric” and “asymmetric” superlattices. It is shown that the consideration of time-dependent space-charge-limited conductivity and “interface structure” can satisfactorily account for the enhancement of the overall ferroelectric and dielectric properties of ferroelectric-paraelectric superlattices.

机译：我们开发了一个模型，以基于Landau-Ginzburg理论从理论上研究界面耦合和电导率对由交替的铁电层和顺电层组成的超晶格的铁电和介电特性的相互作用的影响。该模型的定性预测与“对称”和“非对称”超晶格的最新实验结果进行了比较。结果表明，考虑时间相关的空间电荷限制电导率和“界面结构”可以令人满意地说明铁电-顺电超晶格的整体铁电和介电性能的提高。

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Zhou, Y; Shin, FG;
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年度 2006
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1. Electrical conductivity enhanced dielectric and ferroelectric properties of interface-coupled ferroelectric superlattices [J] . Y. Zhou, F. G. Shin Journal of Applied Physics . 2006,第2期

机译：电导率增强了界面耦合铁电超晶格的介电和铁电性能
2. Electrical conductivity enhanced dielectric and piezoelectric properties of ferroelectric 0-3 composites [J] . C. K. Wong, F. G. Shin Journal of Applied Physics . 2005,第6期

机译：电导率增强铁电0-3复合材料的介电和压电性能
3. Strong dependence of dielectric properties on electrical boundary conditions and interfaces in ferroelectric superlattices [J] . I. B. Misirlioglu, M. T. Kesim, S. P. Alpay Applied Physics Letters . 2014,第2期

机译：介电特性对铁电超晶格的电边界条件和界面的强烈依赖性
4. Investigations of dielectric and ferroelectric properties of yttrium substituted SrBi2Ta2O9 ferroelectric ceramics: Investigations of yttrium substituted SBT ferroelectric ceramics [C] . Sugandha, Jha A. K. Proceedings of 2012 21st IEEE ISAF held jointly with 11th IEEE ECAPD and IEEE PFM (ISAF/ECAPD/PFM 2012) . 2012

机译：钇取代的SrBi2Ta2O9铁电陶瓷的介电和铁电性能研究：钇取代的SBT铁电陶瓷的研究
5. Lead Titanate Based Ferroelectric Superlattices with Conventional and Novel Dielectric Components. [D] . Callori, Sara Jane. 2013

机译：钛酸铅基铁电超晶格，具有常规和新型介电元件。
6. Dielectric Properties and Switching Processes of Barium Titanate–Barium Zirconate Ferroelectric Superlattices [O] . Alexander Sidorkin, Lolita Nesterenko, Yaovi Gagou, 2018

机译：钛酸钡-锆酸钡铁电超晶格的介电性能和转换过程
7. Electrical conductivity enhanced dielectric and ferroelectric properties of interface-coupled ferroelectric superlattices [O] . Zhou, Y, Shin, FG 2006

机译：电导率增强了界面耦合铁电超晶格的介电和铁电性能
8. Relaxor Ferroelectrics for Electrostrictive Transducers: Electrostrictive Strain/Dielectric Properties of Relaxor Ferroelectrics. [R] . 1991

机译：用于电致伸缩传感器的弛豫铁电体：弛豫铁电体的电致伸缩应变/介电特性。

Electrical conductivity enhanced dielectric and ferroelectric properties of interface-coupled ferroelectric superlattices

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