...磁性多层膜1,磁性金属—非磁金属2、磁性金属—绝缘体颗粒薄膜3-4和磁性隧道结5中的巨磁电阻效应(giant magnetoresistance GMR)的研究已经形成了一个新兴的交叉学科—磁电子学6。
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Since a magnetic field changes the resistance of ordinary metals by only a fraction of a percent, they dubbed this phenomenon "giant magnetoresistance," or GMR.
由于磁场变化对普通金属只会造成远远不到百份之一的电阻变化,这种现象被称为“巨磁电阻”或巨磁阻gmr。
Since a magnetic field changes the resistance of ordinary metals by only a fraction of a percent, they dubbed this phenomenon "giant magnetoresistance, " or GMR.
由于磁场变化对普通金属只会造成远远不到百份之一的电阻变化,这种现象被称为“巨磁电阻”或巨磁阻GMR。
The giant magnetoresistance (GMR) effect allows drives like this one, less than an inch in diameter, to detect the tiny magnetic fields that store data in portable electronic devices.
巨磁电阻(GMR)效应使这样一个驱动器的直径不到一英寸,检测在便携式电子设备中存储数据的微小的磁场。
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