调节Janus磁体中的纳米Skyrmion和纳米skyrmions†

IF 5.1 3区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Nanoscale Pub Date : 2023-08-25 DOI:10.1039/D3NR02181E

H. M. Dong, P. P. Fu, Y. F. Duan and K. Chang

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引用次数: 0

摘要

基于微磁学方法和Landau–Lifshitz–Gilbert（LLG）方程，我们研究了二维（2D）Janus磁体（如MnSTe和MnSeTe）中的非平凡自旋纹理，即纳米级磁性skyrmions和Skyrmionium。研究发现，Janus磁性结构可以容纳直径低于10nm的稳定Néel纳米skyrmions和拓扑电荷为零的skyrmions。skyrmion的大小可以被外部磁场挤压，甚至拓扑电荷也可以改变。skyrmions的直径大约是skyrmions大小的两倍。此外，拓扑电荷Q＝±1的切换可以通过改变外部磁场的方向来实现。我们的研究结果清楚地表明，Janus磁体中的磁性skyrmions可以用于构建新型高效的自旋电子纳米器件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Tuning nano-skyrmions and nano-skyrmioniums in Janus magnets†

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Tuning nano-skyrmions and nano-skyrmioniums in Janus magnets†

We study non-trivial spin textures, nanoscale magnetic skyrmions and skyrmioniums, in two-dimensional (2D) Janus magnets, such as MnSTe and MnSeTe, based on the micromagnetism approach and Landau–Lifshitz–Gilbert (LLG) equation. It is found that the Janus magnetic structures can host stable Néel nano-skyrmions with sub-10 nm diameters, and skyrmioniums with zero topological charge. The skyrmion size can be squeezed by external magnetic fields, and even the topological charge can be changed. The diameters of the skyrmioniums are about twice the size of the skyrmions. Moreover, the switching of the topological charge Q = ±1 can be realized by changing the direction of the external magnetic fields. Our results clearly show that magnetic skyrmions in Janus magnets can be used to construct new types of efficient spintronic nanodevices.

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来源期刊

Nanoscale CHEMISTRY, MULTIDISCIPLINARY-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

12.10

自引率

3.00%

发文量

1628

审稿时长

1.6 months

期刊介绍： Nanoscale is a high-impact international journal, publishing high-quality research across nanoscience and nanotechnology. Nanoscale publishes a full mix of research articles on experimental and theoretical work, including reviews, communications, and full papers.Highly interdisciplinary, this journal appeals to scientists, researchers and professionals interested in nanoscience and nanotechnology, quantum materials and quantum technology, including the areas of physics, chemistry, biology, medicine, materials, energy/environment, information technology, detection science, healthcare and drug discovery, and electronics.