Giant Magnetoresistance Effect in Grain-Type Alloy Thin Films: II -Annealing and Double-Layering-

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-11-01 DOI:10.1109/TJMJ.1994.4565973
A. Maeda;S. Oikawa;M. Kume;Y. Shimizu;M. Doi
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Abstract

An annealing study suggested that the internal diffusion and interfacial diffusion of Ag atoms in ferromagnetic FeCo grains made negative and positive contributions, respectively, to obtaining a large magnetoresistance (MR) ratio. The magnetic saturation field (H s ) associated with MR characteristics decreased in proportion to the decrease in resistivity as the annealing temperature and/or annealing time increased. The coercive force in double-layered films with constant Co-Ag thickness decreased with increasing permalloy layer thickness. This indicates that the two layers are magnetically coupled. However, the H s was maintained to be extremely large. The MR ratio in the double-layered films was occasionally larger than that in a Co-Ag single layer.
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晶粒型合金薄膜中的巨磁电阻效应:Ⅱ-退火和双层-
退火研究表明,铁磁性FeCo晶粒中Ag原子的内部扩散和界面扩散分别对获得大的磁阻(MR)比做出了负和正的贡献。随着退火温度和/或退火时间的增加,与MR特性相关的磁饱和场(Hs)与电阻率的降低成比例地减小。Co-Ag厚度不变的双层薄膜的矫顽力随坡莫合金层厚度的增加而减小。这表明这两个层是磁耦合的。然而,Hs被维持为非常大。双层膜中的MR比偶尔大于Co-Ag单层中的MR率。
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IEEE Translation Journal on Magnetics in Japan
IEEE Translation Journal on Magnetics in Japan
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