Anomalous Spin and Orbital Hall Phenomena in Antiferromagnetic Systems

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-04-29 DOI:arxiv-2404.18712
J. E. Abrão, E. Santos, J. L. Costa, J. G. S. Santos, J. B. S. Mendes, A. Azevedo
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Abstract

We investigate anomalous spin and orbital Hall phenomena in antiferromagnetic (AF) materials via orbital pumping experiments. Conducting spin and orbital pumping experiments on YIG/Pt/Ir20Mn80 heterostructures, we unexpectedly observe strong spin and orbital anomalous signals in an out-of-plane configuration. We report a sevenfold increase in the signal of the anomalous inverse orbital Hall effect (AIOHE) compared to conventional effects. Our study suggests expanding the Orbital Hall angle ({\theta}_OH) to a rank 3 tensor, akin to the Spin Hall angle ({\theta}_SH), to explain AIOHE. This work pioneers converting spin-orbital currents into charge current, advancing the spin-orbitronics domain in AF materials.
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反铁磁系统中的反常自旋和轨道霍尔现象
我们通过轨道泵浦实验研究了反铁磁(AF)材料中的反常自旋和轨道霍尔现象。在对 YIG/Pt/Ir20Mn80 异质结构进行自旋和轨道泵浦实验时,我们意外地在平面外配置中观测到了强烈的自旋和轨道反常信号。与传统效应相比,我们报告的反常反轨道霍尔效应(AIOHE)信号增加了七倍。我们的研究建议将轨道霍尔角({\theta}_OH)扩展为秩 3 张量,类似于自旋霍尔角({\theta}_SH),以解释 AIOHE。这项工作开创了将自旋轨道电流转换为电荷电流的先河,推动了原子力材料中自旋轨道电子学领域的发展。
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arXiv - PHYS - Other Condensed Matter
arXiv - PHYS - Other Condensed Matter
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