Magnetic Microwires With Field-Induced Helical Anisotropy for Coil-Less Fluxgate

Butta M.; Ripka P.; Infante G.; Badini-Confalonieri G. A.; Vazquez M.

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Magnetic Microwires With Field-Induced Helical Anisotropy for Coil-Less Fluxgate

机译：具有无线圈通量的具有场致螺旋各向异性的电磁微丝

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摘要

We present a new method for production of magnetic microwire with helical anisotropy. Coil-less fluxgate sensors are generally composed of a bimetallic wire excited by an alternating current; in order for the wire to work in coil-less fluxgate mode, the magnetic layer of the wire needs to have helical anisotropy. So far, we have achieved such anisotropy by mechanically twisting the wire. However, this method has some disadvantages for practical applications, mainly regarding the sensor stability. We propose a method that provides helical anisotropy by applying a helical field during the electrodeposition: this is achieved by the superposition of a longitudinal field generated by a Helmholtz coil and a circumferential field produced by a direct current flowing through the core of the wire during electrodeposition .

机译：我们提出了一种新的生产具有螺旋各向异性的磁性微丝的方法。无线圈磁通门传感器通常由交流电激发的双金属线组成；为了使导线以无线圈的磁通门模式工作，导线的磁性层需要具有螺旋各向异性。到目前为止，我们已经通过机械绞合导线实现了这种各向异性。但是，该方法对于实际应用具有一些缺点，主要是在传感器稳定性方面。我们提出了一种通过在电沉积过程中施加螺旋场来提供螺旋各向异性的方法：这是通过叠加由亥姆霍兹线圈产生的纵向场和由在电沉积过程中流过电线芯线的直流电流产生的圆周场来实现的。

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来源
《Magnetics, IEEE Transactions on》 |2010年第7期|p.2562-2565|共4页
作者
Butta M.; Ripka P.; Infante G.; Badini-Confalonieri G. A.; Vazquez M.;
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作者单位

$^{1}$Faculty of Electrical Engineering,, Czech Technical University, , Prague, , Czech Republic;

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正文语种 eng
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关键词
Anisotropy; coil-less; field induced; fluxgate; helical; microwires; orthogonal;

机译：各向异性;无线圈;场致;磁闸;螺旋;微丝;正交;
入库时间 2022-08-17 13:04:18

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1. Microwire Electroplated Under Torsion as Core for Coil-Less Fluxgate [J] . Mattia Butta, Pavel Ripka, Manuel Vazquez, Sensor Letters: A Journal Dedicated to all Aspects of Sensors in Science, Engineering, and Medicine . 2013,第1期

机译：扭转下电镀的微线为无线圈通量门的核心
2. Magnetization reversal process and peculiarities of giant magneto-impedance effect in amorphous ferromagnetic microwire with helical anisotropy [J] . Nikolai A. Usov, Sergey A. Gudoshnikov Physica status solidi . 2014,第5期

机译：具有螺旋各向异性的非晶铁磁微丝的磁化反转过程及巨磁阻抗效应的特性
3. Symmetry breaking effect of dc bias current on magnetoimpedance in microwire with helical anisotropy: Application to magnetic sensors [J] . M. lpatov, V. Zhukova, J. Gonzalez, Journal of Applied Physics . 2011,第8期

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4. Magnetic microwires for orthogonal fluxgates electroplated with pulse current [C] . Mattia Butta, Pavel Ripka, German Infante Eurosensor Conference . 2013

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5. Anisotropy of magnetic susceptibility (AMS) and anisotropy of remanent magnetization (ARM) data from Miocene ignimbrites, western Great Basin: A magnetic fabric study and comparison of magnetic fabric methods. [D] . Fitter, Thomas. 2014

机译：大盆地西部中新世火成岩的磁化率各向异性（AMS）和剩余磁化强度（ARM）各向异性：磁性织物的研究和磁性织物方法的比较。
6. Magnetic field-induced magnetostructural transition and huge tensile superelasticity in an oligocrystalline Ni–Cu–Co–Mn–In microwire [O] . Zhen Chen, Daoyong Cong, Xiaoming Sun, 2019

机译：寡晶Ni–Cu–Co–Mn–In微丝中的磁场诱导的磁结构转变和巨大的拉伸超弹性
7. Magnetic Microwires With Field-Induced Helical Anisotropy for Coil-Less Fluxgate [O] . Butta M., Ripka P., Infante G., 2010

机译：具有无线圈通量的具有磁场感应螺旋各向异性的电磁微丝

Magnetic Microwires With Field-Induced Helical Anisotropy for Coil-Less Fluxgate

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