Giant Magnetoimpedance Effect Modified by Transverse Shape Anisotropy in Fe-Based Amorphous Ribbon

Ma Lei; Zhao Chenbo; Li Chaozhong; Liu Zhenlin; Izerimana Vincent; Liu Qingfang; Wang Jianbo

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Giant Magnetoimpedance Effect Modified by Transverse Shape Anisotropy in Fe-Based Amorphous Ribbon

机译：Fe基非晶带横向形状各向异性改性的巨型磁阻效应

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摘要

The magnetoimpedance (MI) effect on the Fe-based ribbon with different sizes of triangle transverse structures has been investigated. The initial susceptibility (chi(i)) and the MI ratio along the width (T-MI) and length (L-MI) directions as a function of the triangle height (h) were measured and discussed. The T-MI and chi(i) along the width direction increase with the increase in h, while the L-MI and chi(i) along the length direction decrease with the increase in h. These behaviors are mainly attributed to the variation of the effective shape anisotropy (K-eff) and the corresponding magnetization process, in which K-eff mainly originates from the competition of demagnetization effects along the width and length directions. The triangle structures changed the demagnetization fields along the two directions. Thus, the effective shape anisotropy, permeability, and MI were varied. This article also provides an idea to fabricate the MI sensor by introducing transverse shape anisotropy.

机译：研究了对具有不同尺寸的三角形横向结构的Fe基带上的磁离心（MI）效应。测量并讨论了作为三角形高度（H）的函数的宽度（T-Mi）和长度（L-Mi）方向的初始敏感性（Chi（I））和Mi比率。 T-Mi和Chi（i）沿着宽度方向随H的增加而增加，而L-Mi和Chi（i）沿着长度方向随着H的增加而降低。这些行为主要归因于有效形状各向异性（K-EFF）和相应的磁化过程的变化，其中K-EFF主要来自沿宽度和长度方向的退磁效应竞争。三角形结构沿两个方向改变了退磁区域。因此，改变了有效的各向异性，渗透性和Mi。本文还通过引入横向形状各向异性来制造MI传感器的想法。

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来源
《IEEE Transactions on Magnetics》 |2020年第7期|1-5|共5页
作者
Ma Lei; Zhao Chenbo; Li Chaozhong; Liu Zhenlin; Izerimana Vincent; Liu Qingfang; Wang Jianbo;
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作者单位

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

Anal & Res Ctr Gansu Prov Lanzhou 730000 Peoples R China;

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

Lanzhou Univ Key Lab Magnetism & Magnet Mat Minist Educ Lanzhou 730000 Peoples R China;

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正文语种 eng
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关键词
Amorphous ribbon; magnetoimpedance (MI) effect; patterning; transverse shape anisotropy;

机译：非晶功能丝;磁阻（MI）效应;图案化;横向形状各向异性;

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专利

1. Off-Diagonal Magnetoimpedance Dependence of Magnetostriction and Anisotropy in Co-Based and Fe-Based Amorphous Ribbons [J] . T. Sanchez, J. Garcia, J.D. Santos, Acta Physica Polonica . 2010,第5期

机译：钴基和铁基非晶带的磁致伸缩和各向异性的斜对角磁阻抗依赖性
2. Enhanced Giant Magnetoimpedance Effect in Rapid Heat-Treated Fe-Based Amorphous Ribbons [J] . ZHANG Yi, DONG Juan, FENG Er-Xi, 中国物理快报：英文版 . 2013,第003期

机译：快速热处理的铁基非晶态带材中增强的巨磁阻抗效应
3. Study of the magnetic anisotropy induced in CoFeSiB amorphous ribbons by solidification in a magnetic field using giant magnetoimpedance measurements [J] . Garcia JA, Saad A, Garcia-Arribas A, Physica, B. Condensed Matter . 2004,第1a4期

机译：利用巨磁阻抗测量研究在磁场中凝固而在CoFeSiB非晶带中引起的磁各向异性
4. Design and characteristic analysis of giant magnetoimpedance sensor in Fe-based nanocrystalline ribbons [C] . Xiuli Chai, Zhihua Gan 2011 International Conference on Electronics and Optoelectronics . 2011

机译：铁基纳米晶带中巨磁阻传感器的设计与特性分析
5. Densification behavior, nanocrystallization, and mechanical properties of spark plasma sintered Fe-based bulk amorphous alloys [D] . Singh, Ashish Kumar 2014

机译：火花等离子体烧结铁基块体非晶合金的致密化行为，纳米晶化和力学性能
6. Strain Dependence of Hysteretic Giant Magnetoimpedance Effect in Co-Based Amorphous Ribbon [O] . Michał Nowicki, Piotr Gazda, Roman Szewczyk, 2019

机译：钴基非晶带中磁滞巨磁阻抗效应的应变相关性
7. Giant Magnetoimpedance Effect in Surface Modified CoFeMoSiB Amorphous Ribbons [O] . M. A Cerdeira, G. V Kurlyandskaya, A Fernandez, 2003

机译：表面改性Cofosib非晶丝带的巨型磁阻效应

Giant Magnetoimpedance Effect Modified by Transverse Shape Anisotropy in Fe-Based Amorphous Ribbon

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