Impact of crystalline anisotropy on the extrinsic spin Hall effect in ultrathin films

Christian Herschbach; Dmitry V. Fedorov; Martin Gradhand; Ingrid Mertig

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Impact of crystalline anisotropy on the extrinsic spin Hall effect in ultrathin films

机译：晶体各向异性对超本薄膜外旋霍尔效应的影响

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An efficient conversion of a charge current into a spin current is a crucial point for application of the spin Hall effect in practical spintronic devices. Recently, we revealed that this goal can be achieved by using ultrathin fcc (111) and (001) noble metal films doped with Bi impurities, which possess spin Hall angles up to 80%. Here, we show that the effect can be further amplified in monolayer films with a strong crystalline anisotropy. This is demonstrated by considering noble metal films with fcc (110) geometry. Our theoretical study predicts related spin Hall angles exceeding 100% especially when the crystalline anisotropy is increased, which tunes the Fermi surface topology.

机译：充电电流进入旋转电流的有效转化是在实用的旋转式装置中施加旋转霍尔效应的关键点。最近，我们透露，通过使用掺杂有偏振霍尔角的超薄FCC（111）和（001）惰性金属膜，可以通过使用高达80％的旋转霍尔角度来实现该目标。这里，我们表明可以在具有强晶体各向异性的单层膜中进一步扩增效果。通过考虑具有FCC（110）几何形状的贵金属膜来证明这一点。我们的理论研究预测相关的旋转霍尔角度超过100％，特别是当晶体各向异性增加时，这调整了费米表面拓扑。

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《Physical review.B.Condensed matter and materials physics》 |2020年第10期|104421.1-104421.5|共5页
作者
Christian Herschbach; Dmitry V. Fedorov; Martin Gradhand; Ingrid Mertig;
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Institute of Physics Martin Luther University Halle-Wittenberg 06099 Halle Germany;

Department of Physics and Materials Science University of Luxembourg L-1511 Luxembourg Luxembourg;

H. H. Wills Physics Laboratory University of Bristol Bristol BS8 1TL United Kingdom;

Institute of Physics Martin Luther University Halle-Wittenberg 06099 Halle Germany Max Planck Institute of Microstructure Physics Weinberg 2 06120 Halle Germany;

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Impact of crystalline anisotropy on the extrinsic spin Hall effect in ultrathin films

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