| NiFe/Co/Cu/Co结构自旋阀GMR效应及Co夹层的影响研究 |
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| 引用本文: | 邱进军,卢志红.NiFe/Co/Cu/Co结构自旋阀GMR效应及Co夹层的影响研究[J].功能材料,1999,30(3):258-260. |
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| 作者姓名: | 邱进军 卢志红 |
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| 作者单位: | [1]华中理工大学固体电子学系 [2]中国科学院上海冶金所 |
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| 摘 要: | 用射频磁控溅射发射法成功制备了NiFe/Cu/Co自旋阀多层膜材料,改变Cu层的厚度,研究材料的GMR效应与Cu层厚度的关系,结果表明Cu为2.5nm时样品的MR值最大,其磁电阻效应MR可达1.6%,在NiFe和Cu之间插入一Co薄夹层,通过对不同温度厚度Co夹层的样品的MR曲线及磁滞回线的研究,讨论了Co夹层对样品磁电阻的影响并分析了原因,结果表明插入适当的Co层将提高材料的磁电阻效应,可达2.
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| 关 键 词: | 巨磁电阻效应 矫顽力 自旋阀 钴夹层 |
Influence of Inserted Co Layer on GMR Effect of NiFe/Co/Cu/Co |
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| QIU Jinjun,LU Zhihong,LIANG Jian,ZHENG Yuankai,PENG Zilong,WU Dandan,LIN Gengqi,SHEN Defang,LI Zuoyi, Dept. of Solid State Electronics,Huazhong University of Sci. & Tech.,Wuhan,China, Shanghai Metallurgy Institute,Chinese Academy of S.Influence of Inserted Co Layer on GMR Effect of NiFe/Co/Cu/Co[J].Journal of Functional Materials,1999,30(3):258-260. |
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| Authors: | QIU Jinjun LU Zhihong LIANG Jian ZHENG Yuankai PENG Zilong WU Dandan LIN Gengqi SHEN Defang LI Zuoyi Dept of Solid State Electronics Huazhong University of Sci & Tech Wuhan China Shanghai Metallurgy Institute Chinese Academy of S |
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| Affiliation: | QIU Jinjun1,LU Zhihong2,LIANG Jian3,ZHENG Yuankai1,PENG Zilong1,WU Dandan1,LIN Gengqi1,SHEN Defang2,LI Zuoyi1,1 Dept. of Solid State Electronics,Huazhong University of Sci. & Tech.,Wuhan,430074,China,2 Shanghai Metallurgy Institute,Chinese Academy of S |
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| Abstract: | We fabricated successfully NiFe/Cu/Co spinvalves by RF magnetron sputtering.The change of MR ration with thickness of Cu was studied.We found that MR ratio was the largest when thickness of Cu was 2.5nm. The maximum MR ratio could reach 1.6%.We inserted a thin Co layer between NiFe and Cu, studied GMR effects and magnetic properties of spin valves with different thickness of inserted Co layer.It was found that the inserted Co layer would affect GMR effects of spinvalves.That inserting a proper thickness of Co would enhance GMR effect of the sandwichs was the conclusion.The causes of effects of Co inserted layer on GMR effect of mateials were discussed.The maximum MR ratio could reach 2.5%. |
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| Keywords: | GMR effect coercivity inserted Co layer spinvalves |
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