Charge Transport with Many-Electron Processes in Tunnel Junctions with Hybrid Barriers

2018 IEEE 8th International Conference Nanomaterials: Application & Properties (NAP) Pub Date : 2018-09-01 DOI:10.1109/NAP.2018.8914992

V. Shaternik, A. Shapovalov, O. Suvorov, E. V. Zubov

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Abstract

We propose to realize MoRe/Si(W) /MoRe hybrid junctions by using self-organization effects for the creation of quantum dots (tungsten clusters) in the semiconductor barriers consisting of a mixture of silicon and silicon oxide. Current-voltage characteristics of the MoRe/Si(W)/MoRe samples have been measured in a wide voltage range from −900 to 900 mV at temperatures from 4.2 K to 77 K. At low temperatures and for a comparatively small W content in the hybrid barrier, the heterostructures demonstrate current-voltage curves of an unusual shape. Single or several current peaks caused by electron tunneling through the allowed states in the barrier have been observed in the transport characteristics. With increasing temperature, superconducting fluctuations in the MoRe electrodes become unimportant, and the current-voltage curve of a heterostructure follows the Ohm's law. At last, we present theoretical description of the charge transport in such inhomogeneous systems with account of many-electron processes.

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具有杂化势垒的隧道结中多电子过程的电荷输运

我们提出利用自组织效应在由硅和氧化硅组成的半导体势垒中创建量子点(钨团簇)来实现MoRe/Si(W) /MoRe混合结。在4.2 K至77 K的温度下，在−900至900 mV的宽电压范围内测量了MoRe/Si(W)/MoRe样品的电流-电压特性。在低温和杂化势垒中相对较小的W含量下，异质结构表现出不寻常形状的电流-电压曲线。在输运特性中观察到电子穿过势垒中允许态所引起的单个或多个电流峰。随着温度的升高，MoRe电极的超导波动变得不重要，异质结构的电流-电压曲线遵循欧姆定律。最后，我们给出了考虑多电子过程的非均匀系统中电荷输运的理论描述。

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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2018 IEEE 8th International Conference Nanomaterials: Application & Properties (NAP)

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