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。
Changing of material resistance with applied magnetic field intensity is called Giant magnetoresistance (GMR).
磁电阻效应是指材料的电阻随外加磁场变化而变化的现象。
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。
With the increasing research on giant magnetoresistance (GMR), convenient and fast testing system has become the basis of research on GMR.
随着巨磁电阻效应(GMR)研究的广泛开展,方便、快速的磁电阻测试已成为研究GMR效应的基础。
New magneto- electric components made from giant magnetoresistance(GMR)materials have been successfully applied to computer storage.
用巨磁电阻(GMR)材料构成的磁电子学新器件,已成功地应用于计算机存储领域。
Giant magnetoresistance (GMR) materials is applied to feebleness magnetic field sensor.
巨磁电阻(GMR)材料可应用于弱磁场高灵敏度磁传感器。
Giant magnetoresistance (GMR) materials is applied to feebleness magnetic field sensor.
巨磁电阻(GMR)材料可应用于弱磁场高灵敏度磁传感器。
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