在溅射生长的拓扑反铁磁体 Mn3Sn 薄膜中观察到的各向异性反自旋霍尔效应

IF 1.6 4区 物理与天体物理 Q3 PHYSICS, APPLIED
Dengfu Deng, Dong Gao, Shuyao Chen, Yunfei Xie, Jiayi zheng, Lintong Huang, Chenjie Zhang, Donghua Liu, Lei Bi, Tao Liu
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引用次数: 0

摘要

最近理论预测手性反铁磁化合物 Mn3X(X = Ge、Sn、Ga、Ir、Rh 和 Pt)中的强各向异性自旋霍尔效应(SHE)或反 SHE(ISHE)有可能拓展反铁磁自旋电子学的领域;然而,实验尚未观测到这种效应。为了实现这一目标,我们首先采用室温磁控溅射和高温退火相结合的方法,成功制备出表面光滑的高质量卡戈梅相 Mn3Sn 薄膜。这些 Mn3Sn 薄膜被证明是在 MgO (110) 单晶衬底上外延生长的,其取向({1}{text{0}}\stackrel\{text{-}}{1}{text{0}}\)鲜有报道,可作为研究晶体取向相关各向异性现象的良好平台。然后,通过自旋泵浦诱导的反自旋霍尔效应(SP-ISHE)电压测量,我们通过实验证明了在 Mn3Sn 薄膜中存在晶体取向相关的各向异性 ISHE,其振幅超过 35%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Anisotropic Inverse Spin Hall Effect Observed in Sputtering Grown Topological Antiferromagnet Mn3Sn Films

Anisotropic Inverse Spin Hall Effect Observed in Sputtering Grown Topological Antiferromagnet Mn3Sn Films

Recent theoretically predicted strong anisotropic spin Hall effect (SHE) or inverse SHE (ISHE) in chiral antiferromagnetic compounds Mn3X (X = Ge, Sn, Ga, Ir, Rh, and Pt) could potentially expand the horizons of the antiferromagnet spintronics; however, it has not been experimentally observed yet. For achieving this goal, we have first successfully fabricated high-quality Kagome phase Mn3Sn films with smooth surface by a combination of room-temperature magnetron sputtering and high-temperate annealing. These Mn3Sn films were proved to be epitaxially grown on MgO (110) single crystal substrate with a seldom reported (\({1}{\text{0}}\stackrel{\text{-}}{1}{\text{0}}\)) orientation that could serve as a good platform for the studies of the crystalline orientation-related anisotropic phenomenon. Then, by employing spin pumping-induced inverse spin Hall effect (SP-ISHE) voltage measurements, we have experimentally proved the existence of crystalline orientation-related anisotropic ISHE with an amplitude of more than 35% in our Mn3Sn films.

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来源期刊
Journal of Superconductivity and Novel Magnetism
Journal of Superconductivity and Novel Magnetism 物理-物理:凝聚态物理
CiteScore
3.70
自引率
11.10%
发文量
342
审稿时长
3.5 months
期刊介绍: The Journal of Superconductivity and Novel Magnetism serves as the international forum for the most current research and ideas in these fields. This highly acclaimed journal publishes peer-reviewed original papers, conference proceedings and invited review articles that examine all aspects of the science and technology of superconductivity, including new materials, new mechanisms, basic and technological properties, new phenomena, and small- and large-scale applications. Novel magnetism, which is expanding rapidly, is also featured in the journal. The journal focuses on such areas as spintronics, magnetic semiconductors, properties of magnetic multilayers, magnetoresistive materials and structures, magnetic oxides, etc. Novel superconducting and magnetic materials are complex compounds, and the journal publishes articles related to all aspects their study, such as sample preparation, spectroscopy and transport properties as well as various applications.
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