纳米结构(Ni80 Fe20)xAu1-x薄膜的磁阻特性:浓度和退火效应

IF 0.5 4区物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY

Acta Physica Polonica A Pub Date : 2023-08-01 DOI:10.12693/aphyspola.144.69

I. M. Pazukha, S. R. Dolgov-Gordiichuk, A. Lohvynov, K. Tyschenko, O. Pylypenko

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引用次数: 0

摘要

本文研究了含10 ~ 60 at的纳米结构(Ni 80 Fe 20) x Au 1−x薄膜的磁阻特性。%的Au进行了研究。重点研究了用电子束共蒸发法制备的厚度为45 nm的样品。讨论了在300 ~ 700 K温度范围内Au原子浓度和退火工艺对合金的微观结构、磁阻效应的大小和性质的影响。电镜分析表明，在衍射图像中可以看到面心立方ni3fe和Au相。在不同的薄膜成分和退火条件下，相态不发生变化。同时，薄膜的磁阻性能与样品成分的浓度和退火条件有很大的关系。沉积后的样品在20 ~ 46℃表现出典型的巨磁电阻行为。%的Au，这对于在400和500k退火的样品也是典型的。在500k退火时发生向磁电阻各向异性的转变。

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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Peculiarities of Magnetoresistive Properties of Nanostructured (Ni80 Fe20)xAu1-x Thin Films: Concentration and Annealing Effects

In this report, peculiarities of magnetoresistive properties of nanostructured (Ni 80 Fe 20 ) x Au 1 − x thin ﬁlms containing from 10 to 60 at.% of Au were investigated. We focus on the samples with a thickness of 45 nm fabricated by the method of electron-beam co-evaporation. The inﬂuence of Au atoms concentration and the annealing process within the temperature range from 300 to 700 K on the microstructure, magnitude, and nature of magnetoresistive eﬀects has been discussed. The analysis of electronographic studies showed that both face-centered cubic Ni 3 Fe and Au phases are visible in the diﬀraction images. Upon varying thin ﬁlm compositions and annealing conditions, the phase state does not change. At the same time, magnetoresistive properties of thin ﬁlms demonstrated a strong dependence on both the concentration of sample components and annealing conditions. Samples after deposition showed typical giant magnetoresistance behavior at 20–46 at.% of Au, which is also typical for samples annealed at 400 and 500 K. The transition to the anisotropic nature of magnetoresistance occurs upon annealing at 500 K.

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来源期刊

Acta Physica Polonica A 物理-物理：综合

CiteScore

1.50

自引率

0.00%

发文量

141

审稿时长

6 months

期刊介绍： Contributions which report original research results and reviews in the fields of General Physics, Atomic and Molecular Physics, Optics and Quantum Optics, Quantum Information, Biophysics, Condensed Matter, and Applied Physics are welcomed.