Magnon thermal Edelstein effect detected by inverse spin Hall effect

arXiv: Mesoscale and Nanoscale Physics Pub Date : 2020-11-30 DOI:10.1063/5.0030368
Hantao Zhang, R. Cheng
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引用次数: 6

Abstract

In an easy-plane antiferromagnet with the Dzyaloshinskii-Moriya interaction (DMI), magnons are subject to an effective spin-momentum locking. An in-plane temperature gradient can generate interfacial accumulation of magnons with a specified polarization, realizing the magnon thermal Edelstein effect. We theoretically investigate the injection and detection of this thermally-driven spin polarization in an adjacent heavy metal with strong spin Hall effect. We find that the inverse spin Hall voltage depends monotonically on both temperature and the DMI but non-monotonically on the hard-axis anisotropy. Counterintuitively, the magnon thermal Edelstein effect is an even function of a magnetic field applied along the N\'eel vector.
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用逆自旋霍尔效应检测磁振子热爱德斯坦效应
在具有Dzyaloshinskii-Moriya相互作用(DMI)的易平面反铁磁体中,磁振子受到有效的自旋动量锁定。平面内温度梯度可以产生具有特定极化的磁振子的界面积累,实现磁振子热爱德斯坦效应。我们从理论上研究了这种热驱动的自旋极化在具有强自旋霍尔效应的相邻重金属中的注入和探测。我们发现逆自旋霍尔电压与温度和DMI均呈单调关系,而与硬轴各向异性呈非单调关系。与直觉相反,磁振子热埃德尔斯坦效应是沿N′eel矢量施加磁场的偶函数。
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arXiv: Mesoscale and Nanoscale Physics
arXiv: Mesoscale and Nanoscale Physics
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