识别化学有序和无序铁铝薄膜中的磁性相†。

IF 3.9 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY RSC Advances Pub Date : 2024-11-18 DOI:10.1039/D4RA06100D
A. Zarzycki, M. S. Anwar, R. Bali, K. Potzger, M. Krupinski and M. Marszalek
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引用次数: 0

摘要

铁磁纳米级元素的直接磁写为数据存储或自旋电子设备的潜在应用提供了另一种途径。由于 Fe60Al40 薄膜的局部化学无序造成的磁性图案化导致相邻纳米级区域具有两种不同的相,即低磁化和高矫顽力化学有序相(非辐照铁磁区,NIFM)和高磁化和低矫顽力化学无序相(辐照铁磁区,IMF)。根据 NIFM 和 IFM 相的体积,发现了不同的相互作用机制。研究表明,共存磁性相的调制膜在大多数情况下不会导致交换耦合。然而,研究发现了交换弹簧行为的证据。此外,这两种磁结构相在低温下都显示出类似自旋玻璃的特性。了解化学有序对磁性能的影响对于提高自旋电子器件的功能以及开发具有可控磁性能的合金至关重要。
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Identifying magnetic phases in chemically ordered and disordered FeAl thin films†

Direct magnetic writing of ferromagnetic nanoscale elements provides an alternative pathway for potential application in data storage or spintronic devices. Magnetic patterning due to local chemical disordering of Fe60Al40 thin films results in adjacent nanoscale regions that possess two different phases, viz. a low-magnetization and high-coercive chemically ordered phase (non-irradiated ferromagnetic area, NIFM) and a high-magnetization and low-coercive chemically disordered phase (irradiated ferromagnetic area, IMF). Depending on the volume of NIFM and IFM phases, different interaction mechanisms were revealed. It was shown that the modulated films of the coexisting magnetic phases do not lead to exchange coupling in most cases. Evidence for exchange-spring behaviour, however, was found. Moreover, both magneto-structural phases at low temperatures show spin-glass-like properties. Understanding the influence of chemical ordering on magnetic properties is crucial for the advancement of the functionalities of spintronic devices and for the development of alloys with controllable magnetic properties.

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来源期刊
RSC Advances
RSC Advances chemical sciences-
CiteScore
7.50
自引率
2.60%
发文量
3116
审稿时长
1.6 months
期刊介绍: An international, peer-reviewed journal covering all of the chemical sciences, including multidisciplinary and emerging areas. RSC Advances is a gold open access journal allowing researchers free access to research articles, and offering an affordable open access publishing option for authors around the world.
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