Mechanism of the Magneto-Impedance Effect in Negative Magnetostrictive Amorphous Wires

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-09-01 DOI:10.1109/TJMJ.1994.4565921

L.V. Panina;K. Mohri

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引用次数: 13

Abstract

The concept of a magneto-impedance (MI) effect in magnetic amorphous wires is put forward. At certain frequencies, the wire impedance is highly responsive to magnetic properties, owing to the dependency of the skin depth on magnetic permeability. The theoretical analysis of the MI effect is based on the exact expression for the impedance of a magnetic wire in which the dynamic permeability related to domain wall displacements is damped by microscopic eddy currents. The circular domain structure typical of negative magnetostrictive amorphous wires is considered. In this case, the penetration depth depends on the circumferential permeability, which is a sensitive function of the dc longitudinal field. This theoretical approach is found to account satisfactorily for the existing experimental data on the magneto-impedance characteristics of negative magnetostrictive amorphous wires. In the frequency region where the skin depth is comparable to the wire radius, the MI ratio can reach more than 50% in magnetic fields of the order of the anisotropy field.

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负磁致伸缩非晶线的磁阻抗效应机理

提出了磁性非晶导线中磁阻抗效应的概念。在某些频率下，由于趋肤深度对磁导率的依赖性，导线阻抗对磁特性具有高度响应性。MI效应的理论分析基于磁线阻抗的精确表达式，其中与畴壁位移相关的动态磁导率被微观涡电流阻尼。考虑了负磁致伸缩非晶线的典型圆畴结构。在这种情况下，渗透深度取决于周向渗透率，周向渗透率是直流纵向场的敏感函数。该理论方法很好地解释了现有的关于负磁致伸缩非晶线磁阻抗特性的实验数据。在趋肤深度与导线半径相当的频率区域中，在各向异性场量级的磁场中，MI比可以达到50%以上。

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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IEEE Translation Journal on Magnetics in Japan

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