五氧化二铱作为一种用于探测自旋流的材料。

5d iridium oxide as a material for spin-current detection.

机构信息

1] RIKEN Advanced Science Institute, Wako, Saitama 351-0198, Japan [2].

出版信息

Nat Commun. 2013;4:2893. doi: 10.1038/ncomms3893.

Abstract

Devices based on pure spin currents have been attracting increasing attention as key ingredients for low-dissipation electronics. To integrate such spintronics devices into charge-based technologies, electric detection of spin currents is essential. The inverse spin Hall effect converts a spin current into an electric voltage through spin-orbit coupling. Noble metals such as Pt and Pd, and also Cu-based alloys, have been regarded as potential materials for a spin-current injector, owing to the large direct spin Hall effect. Their spin Hall resistivity ρSH, representing the performance as a detector, is not large enough, however, due mainly because of their low charge resistivity. Here we report that a binary 5d transition metal oxide, iridium oxide, overcomes the limitations encountered in noble metals and Cu-based alloys and shows a very large ρSH~38 μΩ cm at room temperature.

摘要

基于纯自旋电流的器件作为低功耗电子学的关键元件，引起了越来越多的关注。为了将这些自旋电子器件集成到基于电荷的技术中，电检测自旋流是必不可少的。反自旋霍尔效应通过自旋轨道耦合将自旋流转换为电压。由于大的直接自旋霍尔效应，Pt 和 Pd 等贵金属以及 Cu 基合金被认为是自旋电流注入器的潜在材料。然而，由于其低电荷电阻率，它们的自旋霍尔电阻率 ρSH，作为探测器的性能，不够大。在这里，我们报告了一种二元 5d 过渡金属氧化物氧化铱克服了贵金属和 Cu 基合金所遇到的限制，在室温下表现出非常大的 ρSH~38 μΩ cm。

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五氧化二铱作为一种用于探测自旋流的材料。

5d iridium oxide as a material for spin-current detection.

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