由子层厚度约为几十纳米的Cu/Co纯金属“偶对”构成的多层膜具有巨磁阻效应(Giant Magnetoresistance Effect)。深化研讨标明,多层膜的性能特性不只与“偶对”资料的性质有关,而且与子层的厚度、叠加方式等多种构造要素亲密相关。
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The discovery of giant magnetoresistance effect has attracted much attention to research of magnetic transport in inhomogeneous systems, which depends on spin of electrons.
巨磁阻效应的发现,导致了一个如何正确看待非均匀系统中磁输运性质的问题,并使电子输运状况依赖于自旋内禀属性的物理观念逐渐形成。
参考来源 - 非均匀系统磁输运性质的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Materials with giant magnetoresistance effect have been extensively studied because of their potential application in magnetic recording and sensors.
由于巨磁电阻效应在磁记录设备和传感器的潜在应用,具有该效应的材料得到了广泛地研究。
Materials with giant magnetoresistance effect (GMR) have been extensively studied because of their potential applications in magnetic recording and sensors.
由于巨磁阻效应材料在磁记录设备和传感器的潜在应用,具有该效应的材料得到了广泛地研究。
The discovery of giant magnetoresistance effect has attracted much attention to research of magnetic transport in inhomogeneous systems, which depends on spin of electrons.
巨磁阻效应的发现,导致了一个如何正确看待非均匀系统中磁输运性质的问题,并使电子输运状况依赖于自旋内禀属性的物理观念逐渐形成。
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