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不同长度敏感元件的两种巨磁阻抗传感器传感性能研究 被引量:9

Study of the Sensing Performance of Two Kinds of Giant Magnetoimpedance Sensors with Different Element Lengths
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摘要 针对采用Co基非晶丝作为敏感元件的传统巨磁阻抗传感器和非对角巨磁阻抗传感器进行比较研究。改变敏感元件的长度,观察两者在直流外磁场作用下输出信号的变化规律,并讨论退磁场等因素对传感器输出信号的影响。结果显示非对角巨磁阻抗传感器具有高灵敏度,无磁滞等优点,且灵敏度随样品长度的减小略有增大,在测量弱磁场方面表现出更大的潜力,为磁敏传感器的小型化提供了一定的参考依据。 A comparative study between conventional giant magnetoimpedance sensor and off-diagonal giant magnetoimpedance sensor using Co-based amorphous wire as sensing element has been investigated. Under the dc external magnetic field the output signals of these two sensors have been measured with the length of sample varying. The influence of demagnetization field and other factors have been also discussed. The results show that off-diagonal sensor has some advantages of high sensitivity, which increases a little with the sample length decreasing, and non-hysteresis. It shows great potential for weak magnetic field detec- tion, which provides some references for the minimization of magnetic sensors.
作者 李欣 张清 阮建中 王清江 杨燮龙 赵振杰
机构地区 华东师范大学物理系纳光电集成与先进装备教育部工程研究中心 华东师范大学化学系
出处 《传感技术学报》 CAS CSCD 北大核心 2008年第7期1147-1150,共4页 Chinese Journal of Sensors and Actuators
基金 国家自然科学基金资助(20575022) 上海科技项目资助(0652nm036)
关键词 磁敏传感器 巨磁阻抗效应 退磁 小型化 magnetic sensor giant magnetoimpedance effect demagnetization minimization
分类号 TP212 [自动化与计算机技术—检测技术与自动化装置] TM936 [电气工程—电力电子与电力传动]
作者简介 李欣(1983-),女,在读硕士研究生,现就读于华东师范大学物理系材料物理与化学专业,主要从事磁敏传感器的研究。 赵振杰(1970-),男,博士,教授,华东师范大学物理系博士生导师,现从事纳米巨磁阻抗效应及其应用、穆斯堡尔谱学方面的研究工作,zjzhao@phy.ecnu.edu.cn
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参考文献12

  • 1张清,李欣,王清江,李小平,赵振杰.新型巨磁阻抗传感器的特性研究[J].传感技术学报,2007,20(3):578-581. 被引量:12
  • 2Povic R S,Flanagan J A,Besse P A.The Future of Magnetic Sensors[J].Sens.Actuators,1996,A56:39-55.
  • 3Mahdi A E,Panina L,Mapps D.Some New Horizons in Magnetic Sensing:High-To SQUIDs,GMR and GMI Materials[J].Sens.Actuators,2003,A105:271-285.
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  • 6Zhao Z J,Bendjaballah F,Yang X L,Yang D P.Longitudinally Driven Magneto-Impedance Effect in Annealed Fe-based Nanocrystalline Powder Materials[J].J.Magn.Magn.Mater,2002,246:62-66.
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  • 8Buznikov N A,Antonov A S,Rakhmanov A A,Granovsky A B,Kartashov M A,and Perov N S.The Frequency Spectrum of a Voltage Measured in an Amorphous Wire Magnetized in Alternating Magnetic Field[J].Technical Physical Letters,2004 30:168-171.
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二级参考文献8

  • 1Robbes D,Dolabdjian C,Saez S,Monfort Y,Kaiser G,Ciureanu P.Highly Sensitive Uncooled Magnetometers:State of the art.Superconducting Magnetic Hybrid Magnetometers,an Alternative to SQUIDs[J].IEEE Trans Appl Superconductivity,March 2001,11:629-634.
  • 2Popovic R S,Flanagan J A,Besse P A.The Future of Magnetic Sensors[J].Sensors and Actuators,August 1996,A 56:39-55.
  • 3Mahdi A E,Panina L,Mapps D.Some New Horizons in Magnetic Sensing:High-Tc SQUIDs,GMR and GMI materials[J].Sensors and Actuators,August 2003,A 105:271-285.
  • 4Pavel Ripka.Magnetic Sensors and Magnetometers[M].Boston:Artech House,2001.
  • 5Li XP,Zhao Z J,Oh T B,Seet H L,Neo B H,andKoh S J.Current Driven Magnetic Permeability Interference Sensor Using NiFe/Cu Composite Wire with a Signal Pick-up LC Circuit[J].Phys Stat Sol,June 2004,A201:1992-1995.
  • 6Panina L V and Mohri K.Magneto-Impedance Effect in Amorphous Wires[J].Appl Phys Lett,August 1994,65:11891191.
  • 7Gómez-Polo C,Vázquez M,Knobel M.Rotational Giant Magnetoimpedance in Soft Magnetic Wires:Modelization Through Fourier Harmonic Contribution[J].Appl Phys Lett,January 2001,78:246-248.
  • 8Antonov A S,Buznikov N A,Granovsky A B,Perov N S,Prokoshin A F,Rakhmanov A A,Rakhmanov A L.Nonlinear Magnetoimpedance Effect in Soft Magnetic Amorphous Wires Extracted from Melt[J].Sensors and Actuators,September 2003,A 106:208-211.

共引文献11

同被引文献97

引证文献9

二级引证文献27

传感技术学报
2008年 第7期

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