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Domain Structure of Thick' Amorphous Microwires with Nearly Zero Magnetostriction.

机译：具有近零磁致伸缩的厚非晶微丝的畴结构。

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Nearly zero magnetostrictive glass-coated amorphous microwires are suitable materials for sensor applications. Samples with metallic core diameters below 20 micrometers exhibit almost nonhysteretic BH loop, related to the existence of a domain structure with azimuthal easy axis. The magnetic behavior of these microwires is changing drastically when the metallic core diameter increases over 25 micrometers, i.e., they display a bistable magnetic behavior at low fields, that is a one step magnetization reversal at a certain value of the applied field, called switching field. Results on the direct domain observation in nearly zero magnetostrictive Co(68.25)Fe(4.5)Si(12.25)B15 glass- coated amorphous microwires by means of Kerr microscopy are reported for the first time. The effect of glass removal on the domain structure has been also studied. AC hysteresis loop measurements have been employed to establish a correlation between domain structure and magnetic behavior. Glass-coated microwires exhibit a single domain configuration with the magnetization pointing mostly to the wire axis. The domain structure does not change qualitatively after glass removal, but the parameters of the squared hysteresis loops are modified. The remanence to saturation ratio increases after glass removal, while the switching field decreases. The obtained results are of interest for sensor applications, and show that the metallic core diameter is a dimensional factor that contributes to important changes in the domain structure and magnetization process of such microwires.

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Chiriac, H.; Ovari, T. A.; Takajo, M.; Yamasaki, J.; Zhukov, A.;
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年度 2001
页码 1-7
总页数 7
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关键词
Amorphous materials; Ferromagnetic materials; Magnetostriction; Magnetic properties; Symposia; Wire; Ceramic coatings; Metal coatings; Alternating current; Glass; Japan; Saturation; Reversible; Iron alloys; Spain; Magnetization; Loops; Switching; Hysteresis; Solid state phy;

机译：非晶材料;铁磁材料;磁致伸缩;磁性;专题讨论会;电线;陶瓷涂层;金属涂层;交流电;玻璃;日本;饱和;可逆;铁合金;西班牙;磁化;环路;开关;磁滞;固态phy;

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专利

1. Domain Wall Propagation in Nearly Zero Magnetostrictive Amorphous Microwires [J] . Chiriac H., Ovari T.-A., Tibu M. IEEE Transactions on Magnetics . 2008,第期

机译：近零磁致伸缩非晶微丝的畴壁传播
2. Outer shell structure in nearly zero magnetostrictive amorphous microwires [J] . T.-A. Ovari, H. Chiriac, Mihaela Lostun Journal of Applied Physics . 2009,第7pta2期

机译：几乎为零的磁致伸缩非晶微丝的外壳结构
3. Structure of head-to-head domain wall in cylindrical amorphous ferromagnetic microwire and a method of anisotropy coefficient estimation [J] . Mikhail Vereshchagin, Irina Baraban, Sergey Leble, Journal of magnetism and magnetic materials . 2020,第Juna期

机译：圆柱形无定形铁磁性微线的头部到头畴壁的结构及各向异性系数估计方法
4. Domain Structure of 'Thick' Amorphous Microwires with Nearly Zero Magnetostriction [C] . Horia Chiriac, Tibor-Adrian Ovari, Minoru Takajo, Symposia on Applications of Ferromagnetic and Optical Materials, Storage and Magnetoelectronics, Apr 16-20, 2001, San Francisco, California . 2001

机译：磁致伸缩几乎为零的“厚”非晶微线的畴结构
5. Structural Characterization of the Novel Flightin Domain Wyr and Its Defining Role in the Thick Filament Structure and Mechanics [D] . Menard, Lynda. 2021

机译：新型飞行域WYR的结构表征及其在厚灯丝结构和力学中的定义作用
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. Domain Observation of Fe-Co Based Amorphous Wires with Low Positive Magnetostriction. [O] . M. Takajo, J. Yamasaki 2001

机译：低正磁致伸缩Fe-Co基于Fe-Co非晶线的域观察。

Domain Structure of Thick' Amorphous Microwires with Nearly Zero Magnetostriction.

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