Supercurrent-induced skyrmion dynamics and tunable Weyl points in chiral magnet with superconductivity

Rina Takashima; Satoshi Fujimoto

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Supercurrent-induced skyrmion dynamics and tunable Weyl points in chiral magnet with superconductivity

机译：具有超导性的手性磁体中的超电流诱导的Skyrmion动力学和Weyl可调点

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Recent studies show superconductivity provides new perspectives on spintronics. We study a heterostructure composed of an s-wave superconductor and a cubic chiral magnet that stabilizes a topological spin texture, a skyrmion. We propose a supercurrent-induced spin torque, which originates from the spin-orbit coupling, and we show that the spin torque can drive a skyrmion in an efficient way that reduces Joule heating. We also study the band structure of Bogoliubov quasiparticles and show the existence of Weyl points, whose positions can be controlled by the magnetization. This results in an effective magnetic field acting on the Weyl quasiparticles in the presence spin textures. Furthermore, the tilt of the Weyl cones can also be tuned by the strength of the spin-orbit coupling, and we propose a possible realization of type-Ⅱ Weyl points.

机译：最近的研究表明，超导性为自旋电子学提供了新的视角。我们研究了由s波超导体和立方手性磁体组成的异质结构，该磁体稳定了拓扑自旋纹理，即skyrmion。我们提出了一种超电流感应的自旋转矩，该转矩源自自旋轨道耦合，并且我们证明了该自旋转矩可以以一种有效的方式来驱动天体，从而减少焦耳热。我们还研究了Bogoliubov准粒子的能带结构，并显示了Weyl点的存在，Weyl点的位置可以通过磁化来控制。这导致在自旋纹理存在时作用于Weyl准粒子的有效磁场。此外，还可以通过自旋轨道耦合的强度来调节Weyl锥的倾斜，并且我们提出了可能实现Ⅱ型Weyl点的方法。

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《Physical review》 |2016年第23期|235117.1-235117.9|共9页
作者
Rina Takashima; Satoshi Fujimoto;
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Department of Physics, Kyoto University, Kyoto 606-8502, Japan;

Department of Materials Engineering Science, Osaka University, Toyonaka 560-8531, Japan;

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1. Supercurrent-induced skyrmion dynamics and tunable Weyl points in chiral magnet with superconductivity [J] . Takashima Rina, Fujimoto Satoshi Physical review, B . 2016,第23期

机译：具有超导性的手性磁体中的超电流诱导的Skyrmion动力学和Weyl点可调
2. Robust metastable skyrmions with tunable size in the chiral magnet FePtMo_3N [J] . A. S. Sukhanov, A. Heinemann, L. Kautzsch, Physical review . 2020,第14期

机译：强大的旋转次幂，手性磁铁中的可调尺寸为feptmo_3n
3. Dynamics of skyrmions in chiral magnets: Dynamic phase transitions and equation of motion [J] . Lin Shi-Zeng, Reichhardt Charles, Batista Cristian D., Journal of Applied Physics . 2014,第17期

机译：手性磁体中天体离子的动力学：动态相变和运动方程
4. Unitary symmetry and dynamics of high-spin magnets in Weyl and Racah bases [C] . Kovalevsky M.Y., Glushchenko A.V. 2015 International Young Scientists Forum on Applied Physics . 2015

机译：Weyl和Racah基中高自旋磁体的对称性和动力学
5. An Investigation on the Dynamics of Single (Anti)Skyrmion and Multi-Skyrmion Structures in Ferromagnetic Nanodisks [D] . Liu, Xuejuan. 2020

机译：铁磁性纳米发布单（反）斯米利亚和多次智能结构动态的调查
6. Dynamics of skyrmion in disordered chiral magnet of thin film form [O] . Wataru Koshibae, Naoto Nagaosa -1

机译：薄膜形式的无序手性磁体中天rm离子的动力学
7. Supercurrent-induced Skyrmion dynamics and Tunable Weyl points in Chiral Magnet with Superconductivity [O] . Takashima, Rina, Fujimoto, Satoshi 2016

机译：手征中的超流诱导skyrmion动力学和可调Weyl点具有超导性的磁铁

Supercurrent-induced skyrmion dynamics and tunable Weyl points in chiral magnet with superconductivity

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