这种结构物质的值与材料薄膜层的方向有关,的一种,巨磁阻效应(Giant Magnetoresistance)是一种和现象,第一节2011-2015年中国光学玻璃产业新趋势探析
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1.1.1巨磁电阻(GMR) 对于自旋电子学学科,巨磁电阻(Giant magnetoresistance)是其最重要的应用和最奇特的发现。材料的电阻率随外加磁场的变化发生巨大改变的现象称为巨磁电阻效应。
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六角铁氧体 2011-6-15 20 D 巨磁电阻存储材料 巨磁电阻效应(Giant magnetoresistance,GMR) 指磁性材料的电阻率在有外磁场作用时较之无外磁场作用时 存在巨大变化的现象。
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Giant Magnetoresistance Materials 巨磁电阻材料
giant magnetoresistance effect 巨磁阻效应
giant magnetoresistance semiconductor 巨磁电阻半导体
giant magnetoresistance GMR 巨磁电阻效应
thin film giant magnetoresistance materials 薄膜巨磁电阻材料
giant magnetoresistance films 巨磁电阻
giant magnetoresistance effects 巨磁电阻效应
The giant magnetoresistance (GMR) effect has caused various attentions of both industrail and academic since its discovery. GMR effect has become one of the hot topics in current condensed matter physics.
巨磁电阻(GMR)效应自发现以来即引起各国企业界及学术界的高度重视,GMR效应已成为当前凝聚态物理研究的热点之一。
参考来源 - 铁磁体—肖特基金属体—半导体复合纳米结构的巨磁阻效应Novel properties such as giant magnetoresistance (GMR), giant Hall effect (GHE) and huge coercivity have made ferromagnetic nanogranular films promising candidates for the applications of magnetic sensors, high density magnetic recording materials, read-out magnetic head and magnetic random access memory.
铁磁性金属纳米颗粒薄膜系统中存在的巨磁电阻效应、巨霍尔效应、高矫顽力效应等新特性,使其在磁性传感器件、高密度记录介质、读出磁头和磁性随机存取存储器等研究领域具有广阔的应用前景。
参考来源 - 磁性纳米颗粒薄膜的微观结构、磁性质和输运特性·2,447,543篇论文数据,部分数据来源于NoteExpress
以上来源于: WordNet
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。
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。
The application prospects of magnetic nanowires for magnetic recording, giant magnetoresistance, quantum disk and magnetic memory were discussed.
阐述了一维磁纳米线在磁记录、巨磁电阻、量子磁盘及高密度存储等领域的应用前景。
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