Propagating domain wall shape and dynamics in iron-rich amorphous wires

Chen; D.-X.; Dempsey; N.M.; Vazquez; M.; Hernando; A.

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Propagating domain wall shape and dynamics in iron-rich amorphous wires

机译：富铁非晶丝中畴壁形状和动力学的传播

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Sixtus-Tonks experiment for an amorphous Fe/sub 77.5/Si/sub 7.5/B/sub 15/ wire made by quenching in rotating water has been performed under a tensile stress /spl sigma/. The data are analyzed using the formula V/sub w/=S(H-H/sub 0/), where V/sub w/ is the axial wall velocity, H is the steady field, and S and H/sub 0/ are constants. To study the wall shape and damping mechanism, tubular- and planar-wall eddy-current models are proposed, and complete sets of formulas are given, including the wall shape, the pulse waveform, and the damping coefficient. A comparison between the experiments and the model prediction indicates that the propagating wall in such amorphous wires is not conical as usually suggested, but close to planar. The damping is dominated by eddy currents at small /spl sigma/, but with increasing /spl sigma/ to 915 MPa spin relaxation plays an equally important role.ETX

机译：在拉伸应力/ spl sigma /下，对通过在旋转水中淬火制成的非晶态Fe / sub 77.5 / Si / sub 7.5 / B / sub 15 /金属丝进行了Sixtus-Tonks实验。使用公式V / sub w / = S（HH / sub 0 /）分析数据，其中V / sub w /是轴向壁速度，H是稳定场，S和H / sub 0 /是常数。为了研究壁的形状和阻尼机理，提出了管状和平面壁的涡流模型，并给出了包括壁形状，脉冲波形和阻尼系数在内的全套公式。实验和模型预测之间的比较表明，这种非晶态导线中的传播壁不是通常所建议的那样圆锥形，而是接近平面。阻尼在小/ spl sigma /时由涡流控制，但随着/ spl sigma /增大到915 MPa，自旋松弛也起着同样重要的作用。 ETX

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《IEEE Transactions on Magnetics》 |1995年第1apart2期|781-790|共10页
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Chen; D.-X.; Dempsey; N.M.; Vazquez; M.; Hernando; A.;
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Inst. de Magnetismo Aplicado, Univ. Complutense de Madrid, Spain|c|;

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1. Propagating domain wall shape and dynamics in iron-rich amorphous wires [J] . Chen D.-X., Dempsey N.M. IEEE Transactions on Magnetics . 1995,第1期

机译：富铁非晶丝中畴壁形状和动力学的传播
2. Simultaneous magneto-optical Kerr effect and Sixtus-Tonks method for analyzing the shape of propagating domain walls in ultrathin magnetic wires [J] . Tibu M., Lostun M., Ovari T.-A., Review of Scientific Instruments . 2012,第6期

机译：同时磁光克尔效应和Sixtus-Tonks方法分析超细电磁线中传播畴壁的形状
3. Influence of the magnetoelastic anisotropy on the domain wall dynamics in bistable amorphous wires [J] . Richter K., Varga R., Zhukov A. Journal of Physics. Condensed Matter . 2012,第29期

机译：磁弹性各向异性对双稳态非晶丝畴壁动力学的影响
4. Dynamics of Domain Walls in the Field of an Acoustic Wave Propagate in a Plane of Domain Wall [C] . V.S.Gerasimchuk, A.A.Shitov 8th European Magnetic Materials and Applications Conference, Jun 7-10, 2000, Kyiv, Ukraine . 2000

机译：畴壁平面中声波场中的畴壁动力学
5. Domain wall pinning in the iron-rich iron-gold and iron-copper binary alloys. [D] . Ng, Dickon H. L. 1989

机译：富铁铁金和铁铜二元合金的畴壁钉扎。
6. Manipulation of domain wall dynamics in amorphous microwires through the magnetoelastic anisotropy [O] . Arcady Zhukov, Juan Maria Blanco, Mihail Ipatov, 2012

机译：通过磁弹性各向异性操纵非晶态微丝中的畴壁动力学
7. Distance Sensors Using Domain Wall Propagation Driven by a Wire Current Pulse Train in Amorphous Magnetostrictive Wires. [O] . M. Mizutani, L. V. Panina, K. Mohri 1994

机译：使用域壁传播的距离传感器，由无定形磁致伸缩线中的电线电流脉冲系驱动。

Propagating domain wall shape and dynamics in iron-rich amorphous wires

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