Magnetoresistance of Bloch-Wall-Type Magnetic Structures Induced in NiFe/CoSm Exchange-Spring Bilayers (SOLID STATE CHEMISTRY-Artificial Lattice Alloys)

ICR annual report Pub Date : 1998-03-01 DOI:10.1103/PHYSREVB.58.6442
K. Mibu, T. Nagahama, T. Ono, T. Shinjo
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引用次数: 51

Abstract

The magnetoresistance originating from magnetic structures with gradually rotating magnetic moments, like a Bloch wall, was investigated using soft-magnetic (NiFe)/hard-magnetic (CoSm) bilayers, whose magnetic structures were well characterized. The magnetoresistance was measured with an electric current in the film plane; the magnetoresistance in this geometry corresponds to that due to a current parallel to a Bloch wall. The main feature of the magnetoresistance curves was ruled by the anisotropic magnetoresistance. It was found that a giant magnetoresistance-type effect coexisted; the effect was very small in comparison with the anisotropic magnetoresistance effect.
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NiFe/CoSm交换弹簧双层中bloch - wall型磁性结构的磁阻(固态化学-人工晶格合金)
利用软磁(NiFe)/硬磁(CoSm)双层材料研究了磁矩逐渐旋转的磁结构(如Bloch壁)产生的磁电阻,并对其磁结构进行了表征。通过在膜面上施加电流来测量磁电阻;这种几何形状的磁电阻对应于平行于布洛赫壁的电流所产生的磁电阻。磁电阻曲线的主要特征是各向异性磁电阻。发现巨磁阻效应共存;与各向异性磁阻效应相比,该效应很小。
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ICR annual report
ICR annual report
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