Frequency-modulation-type MI sensor with nanocrystalline ribbon core

Zhiming M. Wu; Zhenjie J. Zhao; Jiexin X. Yang; Longping P. Liu; Xielong L. Yang

doi:10.1016/j.sna.2005.03.019

Frequency-modulation-type MI sensor with nanocrystalline ribbon core

Zhiming M. Wu
, Zhenjie J. Zhao
, Jiexin X. Yang
, Longping P. Liu
, Xielong L. Yang^*

^*此作品的通讯作者

物理与电子科学学院

East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

A longitudinally driven giant magneto-impedance (GMI) effect in the tensile-stress-annealed nanocrystalline Fe₇₃Cu₁Nb _1.5V₂Si_13.5B₉ ribbons was investigated and a frequency-modulation (FM)-type MI sensor utilizing the effect has been developed. A highest sensitivity of 42%/Oe for the sensors was obtained. The sensitivity and linear range of the sensors can be modified by inducing suitable transverse magnetic anisotropy using longitudinal tensile stress annealing. A linear FM-MI sensor in the range of ±2 Oe was constructed with a sensitivity of 15%/Oe.

源语言	英语
页（从-至）	430-433
页数	4
期刊	Sensors and Actuators A: Physical
卷	121
期	2
DOI	https://doi.org/10.1016/j.sna.2005.03.019
出版状态	已出版 - 30 6月 2005

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@article{166714c0e1094be5b0d3f79d22ac7257,

title = "Frequency-modulation-type MI sensor with nanocrystalline ribbon core",

abstract = "A longitudinally driven giant magneto-impedance (GMI) effect in the tensile-stress-annealed nanocrystalline Fe73Cu1Nb 1.5V2Si13.5B9 ribbons was investigated and a frequency-modulation (FM)-type MI sensor utilizing the effect has been developed. A highest sensitivity of 42\%/Oe for the sensors was obtained. The sensitivity and linear range of the sensors can be modified by inducing suitable transverse magnetic anisotropy using longitudinal tensile stress annealing. A linear FM-MI sensor in the range of ±2 Oe was constructed with a sensitivity of 15\%/Oe.",

keywords = "Frequency modulation, GMI effect, Magnetic sensor, Transverse anisotropy",

author = "Wu, \{Zhiming M.\} and Zhao, \{Zhenjie J.\} and Yang, \{Jiexin X.\} and Liu, \{Longping P.\} and Yang, \{Xielong L.\}",

year = "2005",

month = jun,

day = "30",

doi = "10.1016/j.sna.2005.03.019",

language = "英语",

volume = "121",

pages = "430--433",

journal = "Sensors and Actuators A: Physical",

issn = "0924-4247",

publisher = "Elsevier B.V.",

number = "2",

}

TY - JOUR

T1 - Frequency-modulation-type MI sensor with nanocrystalline ribbon core

AU - Wu, Zhiming M.

AU - Zhao, Zhenjie J.

AU - Yang, Jiexin X.

AU - Liu, Longping P.

AU - Yang, Xielong L.

PY - 2005/6/30

Y1 - 2005/6/30

N2 - A longitudinally driven giant magneto-impedance (GMI) effect in the tensile-stress-annealed nanocrystalline Fe73Cu1Nb 1.5V2Si13.5B9 ribbons was investigated and a frequency-modulation (FM)-type MI sensor utilizing the effect has been developed. A highest sensitivity of 42%/Oe for the sensors was obtained. The sensitivity and linear range of the sensors can be modified by inducing suitable transverse magnetic anisotropy using longitudinal tensile stress annealing. A linear FM-MI sensor in the range of ±2 Oe was constructed with a sensitivity of 15%/Oe.

AB - A longitudinally driven giant magneto-impedance (GMI) effect in the tensile-stress-annealed nanocrystalline Fe73Cu1Nb 1.5V2Si13.5B9 ribbons was investigated and a frequency-modulation (FM)-type MI sensor utilizing the effect has been developed. A highest sensitivity of 42%/Oe for the sensors was obtained. The sensitivity and linear range of the sensors can be modified by inducing suitable transverse magnetic anisotropy using longitudinal tensile stress annealing. A linear FM-MI sensor in the range of ±2 Oe was constructed with a sensitivity of 15%/Oe.

KW - Frequency modulation

KW - GMI effect

KW - Magnetic sensor

KW - Transverse anisotropy

UR - https://www.scopus.com/pages/publications/19944382198

U2 - 10.1016/j.sna.2005.03.019

DO - 10.1016/j.sna.2005.03.019

M3 - 文章

AN - SCOPUS:19944382198

SN - 0924-4247

VL - 121

SP - 430

EP - 433

JO - Sensors and Actuators A: Physical

JF - Sensors and Actuators A: Physical

IS - 2

ER -

Frequency-modulation-type MI sensor with nanocrystalline ribbon core

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