非晶微线系统的磁化:FORC 分析

IF 0.8 Q3 Engineering
A. S. Komlev, N. S. Perov, L. A. Shendrikova
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引用次数: 0

摘要

摘要 使用一阶反转曲线 (FORC) 分析法研究了非晶玻璃涂层微线的磁化过程。通过这种方法,我们可以研究这些样品中的磁静电相互作用。FORC 图中峰值的数量、形状、大小和位置可以提供有关微线及其系统不同再磁化过程的信息。样品磁致伸缩的符号对 FORC 图的类型有很大影响。再磁化过程还取决于铁基微线两端的机械应力。随着导线长度的增加,这种依赖性趋于零。对于钴基样品,已描述了退磁因子对 FORC 图的影响。此外,本研究还对具有正磁致伸缩的密集微线系统的磁致伸缩相互作用进行了可视化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Magnetization of Amorphous Microwire Systems: FORC Analysis

Magnetization of Amorphous Microwire Systems: FORC Analysis

Magnetization of Amorphous Microwire Systems: FORC Analysis

Remagnetization processes of amorphous glass-coated microwires have been studied using First Order Reversal Curve (FORC) analysis. This method allows us to study the magnetostatic interactions in these samples. The number, shape, size, and location of the peaks in the FORC diagram can provide information about the different remagnetization processes of the microwires and their system. The sign of magnetostriction of the sample strongly influences the type of FORC diagram. The remagnetization process also depends on the mechanical stresses at the ends of the Fe-based microwire. This dependence tends to zero with increasing wire length. For Co-based samples, the effect of the demagnetization factor on the FORC diagram has been described. In addition, the magnetostatic interactions for a system of densely packed microwires with positive magnetostriction are visualized in this work.

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来源期刊
Nanotechnologies in Russia
Nanotechnologies in Russia NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
1.20
自引率
0.00%
发文量
0
期刊介绍: Nanobiotechnology Reports publishes interdisciplinary research articles on fundamental aspects of the structure and properties of nanoscale objects and nanomaterials, polymeric and bioorganic molecules, and supramolecular and biohybrid complexes, as well as articles that discuss technologies for their preparation and processing, and practical implementation of products, devices, and nature-like systems based on them. The journal publishes original articles and reviews that meet the highest scientific quality standards in the following areas of science and technology studies: self-organizing structures and nanoassemblies; nanostructures, including nanotubes; functional and structural nanomaterials; polymeric, bioorganic, and hybrid nanomaterials; devices and products based on nanomaterials and nanotechnology; nanobiology and genetics, and omics technologies; nanobiomedicine and nanopharmaceutics; nanoelectronics and neuromorphic computing systems; neurocognitive systems and technologies; nanophotonics; natural science methods in a study of cultural heritage items; metrology, standardization, and monitoring in nanotechnology.
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