基于铁和贵金属的薄膜材料的磁阻

2017 IEEE 7th International Conference Nanomaterials: Application & Properties (NAP) Pub Date : 2017-09-01 DOI:10.1109/NAP.2017.8190396

O. P. Tkach, L. Odnodvorets, M. O. Shumakova, I. Protsenko

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引用次数: 0

摘要

以铁和贵金属为基础的薄膜通过分层或同时冷凝的方法蒸发在玻璃和小衬底上。研究了Fe、Pd、Cu、Au薄膜的磁阻特性，发现了相形成过程(即Fe、Pd薄膜的结构有序过程和Fe、Au薄膜的造粒过程)决定了磁阻的依赖性和磁阻的幅值。尽管巨磁阻量相对较小，但由于颗粒的相组成具有较宽的温度和浓度稳定区间，因此这些薄膜材料可以用作应变传感器和磁场的敏感元件。

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Magnetoresistance of film materials based on iron and noble metals

Thin films based on iron and noble metals were evaporated on glass and sitall substrates by method of layered or simultaneous condensation. The magnetoresistivity properties of films based on Fe and Pd, Cu or Au were studied and shows what character of the dependence and the amplitude of magnetoresistance are determined by the phase formation processes, namely by the processes of structural ordering in the films based on Fe, Pd and granulation in the films based on Fe and Au. Despite the relatively small amount of giant magnetoresistance, these film materials can be used as sensitive elements of strain sensors and magnetic fields, since the phase composition of the granules has wide temperature and concentration stability intervals.

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2017 IEEE 7th International Conference Nanomaterials: Application & Properties (NAP)

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