FeZrN 薄膜:静态和微波磁性能

IF 0.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
E. N. Sheftel, E. V. Harin, V. A. Tedzhetov, K. N. Rozanov, S. Yu. Bobrovskii, G. Sh. Usmanova
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引用次数: 0

摘要

摘要 研究了反应磁控沉积法合成的 Fe81-74Zr2-5N17-21 薄膜的相态和结构状态、磁性微结构参数以及静态和微波磁性能。研究发现,随着锆和氮含量的增加,薄膜结构从所谓的混合结构(非晶和纳米晶,由锆和氮过饱和的 bcc 改性和 fcc 氮化物相的铁基固溶体代表)转变为 X 射线非晶结构。我们研究了静态磁性能和随机磁性结构参数与频率高达 3 GHz 的有效实际磁导率 μ' 之间的相互作用。结果表明,随机磁结构决定了动态磁特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

FeZrN Films: Static and Microwave Magnetic Properties

FeZrN Films: Static and Microwave Magnetic Properties

FeZrN Films: Static and Microwave Magnetic Properties

Abstract—The phase and structural state, parameters of the magnetic microstructure, and static and microwave magnetic properties of the Fe81–74Zr2–5N17–21 films synthesized by reactive magnetron deposition have been studied. It has been established that, as the Zr and N contents increase, the film structure changes from the so-called mixed structure (amorphous and nanocrystalline represented by the Fe-based solid solution supersaturated with zirconium and nitrogen in the bcc modification and the fcc nitride phase) to the X-ray amorphous one. The interplay of the static magnetic properties and the parameters of the stochastic magnetic structure with the effective real permeability μ' at frequencies of up to 3 GHz has been examined. It is shown that the stochastic magnetic structure determines the dynamic magnetic properties.

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来源期刊
Inorganic Materials: Applied Research
Inorganic Materials: Applied Research Engineering-Engineering (all)
CiteScore
0.90
自引率
0.00%
发文量
199
期刊介绍: Inorganic Materials: Applied Research  contains translations of research articles devoted to applied aspects of inorganic materials. Best articles are selected from four Russian periodicals: Materialovedenie, Perspektivnye Materialy, Fizika i Khimiya Obrabotki Materialov, and Voprosy Materialovedeniya  and translated into English. The journal reports recent achievements in materials science: physical and chemical bases of materials science; effects of synergism in composite materials; computer simulations; creation of new materials (including carbon-based materials and ceramics, semiconductors, superconductors, composite materials, polymers, materials for nuclear engineering, materials for aircraft and space engineering, materials for quantum electronics, materials for electronics and optoelectronics, materials for nuclear and thermonuclear power engineering, radiation-hardened materials, materials for use in medicine, etc.); analytical techniques; structure–property relationships; nanostructures and nanotechnologies; advanced technologies; use of hydrogen in structural materials; and economic and environmental issues. The journal also considers engineering issues of materials processing with plasma, high-gradient crystallization, laser technology, and ultrasonic technology. Currently the journal does not accept direct submissions, but submissions to one of the source journals is possible.
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