Influence of the domain structure of nano-oxide layers on the transport properties of specular spin valves

J. Ventura; J. B. Sousa; A. Veloso; P. P. Freitas

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Influence of the domain structure of nano-oxide layers on the transport properties of specular spin valves

机译：纳米氧化物层域结构对镜面自旋阀输运性能的影响

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Specular spin valves show enhanced giant magnetoresistive ratio when compared to other simpler, spin valve structures as a result of specular reflection in nano-oxide layers (NOLs) formed by the partial oxidation of the CoFe pinned and free layers. The oxides forming the NOL were recently shown to order antiferromagnetically below T～ 175 K. Here we study the training effect in MnIr/CoFe/NOL/CoFe/Cu/CoFe/NOL specular spin valves at low temperatures (15 K). We observed that the training effect is related to the nano-oxide layer antiferromagnet ordering and to the evolution of the corresponding domain structure with the number of cycles performed. This allowed us to study the influence of the NOL domain structure on the magnetotransport of specular spin valves.

机译：与其他更简单的自旋阀结构相比，镜面自旋阀显示出增强的巨磁阻比，这是由于CoFe固定层和自由层的部分氧化所形成的纳米氧化物层（NOL）中的镜面反射。最近发现形成NOL的氧化物在T〜175 K以下反铁磁有序。在这里，我们研究了在低温（15 K）下MnIr / CoFe / NOL / CoFe / Cu / CoFe / NOL镜面自旋阀中的训练效果。我们观察到训练效果与纳米氧化物层反铁磁体的有序性以及与执行的循环数的相应畴结构的演变有关。这使我们能够研究NOL域结构对镜面自旋阀的磁输运的影响。

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《Journal of Applied Physics》 |2007年第9pt2期|p.09E502.1-09E502.3|共3页
作者
J. Ventura; J. B. Sousa; A. Veloso; P. P. Freitas;
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IN and IFIMUP, Rua do Campo Alegre 678, 4169-007 Porto, Portugal;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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Influence of the domain structure of nano-oxide layers on the transport properties of specular spin valves

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