Электропроводность и интерфейсные явления в тонкопленочных гетероструктурах на основе ниобата лития и танталата лития

Физика твердого тела Pub Date : 2023-01-01 DOI:10.21883/ftt.2023.04.55294.7

С.И. Гудков, А. В. Солнышкин, Р. Н. Жуков, Д. А. Киселев, Е. М. Семенова, А. Н. Белов

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Abstract

In this work, the electrophysical properties of metal-ferroelectric-semiconductor structures – Cu/LiNbO₃/Si and Ag/LiTaO₃/Si – with a ferroelectric layer thickness of 200 nm have been studied. The ferroelectric layers were deposited by RF‐magnetron sputtering. A topography study of thin film surface revealed a grain structure. The electrical conductivity mechanisms in Cu/LiNbO₃/Si and Ag/LiTaO₃/Si were considered. In a dependence of bias voltage value, there are a space charge-limited current, hopping conduction, and Schottky emission in Cu/LiNbO₃/Si structures. For Ag/LiTaO₃/Si structures, the space charge-limited current and hopping conduction were observed. An asymmetry of the current-voltage characteristics may indicate the presence of a potential barrier at the interface. For the studied structures, the value of the potential barrier was determined.

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薄膜异质结构中的电导率和界面现象

在这项工作中，研究了铁电层厚度为200nm的金属-铁电半导体结构Cu/LiNbO₃/Si和Ag/LiTaO₃/Si的电物理性质。采用射频磁控溅射沉积铁电层。对薄膜表面形貌的研究显示出晶粒结构。研究了Cu/LiNbO₃/Si和Ag/LiTaO₃/Si的导电机理。在偏置电压值的依赖下，Cu/LiNbO₃/Si结构中存在空间电荷限制电流、跳变传导和肖特基发射。对于Ag/LiTaO₃/Si结构，观察了空间电荷限制电流和跳变传导。电流-电压特性的不对称可能表明在界面处存在电位势垒。对于所研究的结构，确定了势垒的值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Физика твердого тела

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