Magnetoimpedance in Symmetric and Non-Symmetric Nanostructured Multilayers: A Theoretical Study

机译：对称和非对称纳米结构多层中的磁阻：理论研究

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摘要

Intensive studies of the magnetoimpedance (MI) effect in nanostructured multilayers provide a good phenomenological basis and theoretical description for the symmetric case when top and bottom layers of ferromagnet/conductor/ferromagnet structure have the same thickness and consist of one magnetic layer each. At the same time, there is no model to describe the MI response in multilayered films. Here, we propose the corresponding model and analyze the influence of the multilayer parameters on the field and frequency dependences of the MI. The approach is based on the calculation of the field distribution within the multilayer by means of a solution of lineralizied Maxwell equations together with the Landau–Lifshitz equation for the magnetization motion. The theoretical model developed allows one to explain qualitatively the main features of the MI effect in multilayers and could be useful for optimization of the film parameters. It might also be useful as a model case for the development of MI magnetic biosensors for magnetic biomarker detection.

机译：当铁磁体/导体/铁磁体结构的顶层和底层具有相同的厚度并各自由一个磁层组成时，对纳米结构多层中的磁阻（MI）效应的深入研究为对称情况提供了良好的现象学基础和理论描述。同时，没有模型来描述多层膜中的MI反应。在这里，我们提出了相应的模型，并分析了多层参数对MI的场和频率依赖性的影响。该方法基于对线性化的Maxwell方程和Landau-Lifshitz方程的磁化运动方程的求解，从而计算了多层内的磁场分布。建立的理论模型可以定性地解释多层膜MI效应的主要特征，并可能对优化膜参数有用。作为开发用于磁性生物标志物检测的MI磁性生物传感器的模型案例，它也可能有用。

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期刊名称 Sensors (Basel Switzerland)
作者
Nikita A. Buznikov; Galina V. Kurlyandskaya;
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作者单位

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年(卷),期 2019(19),8
年度 2019
页码 1761
总页数 14
原文格式 PDF
正文语种
中图分类
关键词
magnetic multilayers magnetoimpedance modeling magnetic sensors magnetic biosensors;

机译：磁性多层;磁阻;建模;磁性传感器;磁性生物传感器;

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1. Design and synthesis of non-symmetric phenylpyridine type ligands. Experimental and theoretical studies of their corresponding iridium complexes [J] . Iturbe C., Loeb B., Barrera M., Polyhedron: The International Journal for Inorganic and Organometallic Chemistry . 2016,第Null期

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2. Multilayer stag beetle elytra perform better under external loading via non-symmetric bending properties [J] . Kundanati Lakshminath, Signetti Stefano, Gupta Himadri S., Journal of the Royal Society Interface . 2018,第144期

机译：通过非对称弯曲特性，多层齿甲虫植物elytra在外部加载下执行更好
3. NANOSTRUCTURED MAGNETOIMPEDANCE MULTILAYERS WITH DIFFERENT THICKNESS OF FeNi COMPONENTS [J] . A.A. Chlenova, G.V. Kurlyandskaya, S.O. Volchkov, Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2014,第Null期

机译：FeNi组分厚度不同的纳米结构磁阻多层
4. NANOSTRUCTURED MAGNETOIMPEDANCE MULTILAYERS WITH DIFFERENT THICKNESS OF FeNi COMPONENTS [C] . A. A. Chlenova, G. V. Kurlyandskaya, S. O. Volchkov, Euro-Asian Symposium "Trends in MAGnetism" . 2014

机译：纳米结构磁阻多层多层，具有不同厚度的FENI组件
5. Ballistic electron magnetic microscopy: Hot-electron transport studies and magnetic imaging of ferromagnetic multilayer films, nanostructures, and tunnel junctions. [D] . Rippard, William Horrocks. 2001

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6. A Model for the Magnetoimpedance Effect in Non-Symmetric Nanostructured Multilayered Films with Ferrogel Coverings [O] . Nikita A. Buznikov, Galina V. Kurlyandskaya 2021

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7. Non-symmetric hybrids of noble metal-semiconductor: Interplay of nanoparticles and nanostructures in formation dynamics and plasmonic applications [O] . Yinghui Sun, Xianzhong Yang, Haofei Zhao, 2017

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8. Study of the kinematic and load sharing properties of wormgearing with non-symmetric tooth profiles [R] . Sun, D. C., Yuan, Qin 1995

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Magnetoimpedance in Symmetric and Non-Symmetric Nanostructured Multilayers: A Theoretical Study

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