Topological transformation of magnetic hopfion in confined geometries

Yang Gao, Shuang Li, Yuelei Zhao, Zhaozhao Zhu, Linyu Cao, Jiawang Xu, Yan Zhou, Shouguo Wang
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Abstract

Three-dimensional (3D) topological magnetic structures have attracted enormous interest due to their exceptional spatial structures and intriguing physics. Hopfions, characterized by the Hopf index, are 3D spin textures that emerged as closed twisted skyrmion strings. A comprehensive understanding of magnetic structural transitions within nanostructures is crucial for their applications in spintronics devices. Despite the demonstration of stabilization and current-driven dynamics of hopfion, their behavior in geometric confinement has remained unexplored. Here, we investigate the transformation between hopfions and torons in various nanostructures using micromagnetic simulations. By tailoring the axial ratio of elliptical nanodisks, the elliptical hopfion is found to be transformed into a toron structure. Moreover, the current-driven topological transformation between hopfion and toron has also been realized in finite-sized nanostripes and stepped nanostructures. This deformation and transformation arise from the repulsive potential of the boundaries or edges. To connect real-space observations and 3D topological spin configurations, we simulate the Lorentz transmission electron microscope images of the aforementioned magnetic structures. This study, uncovering the dynamics and transformation of hopfions, will invigorate 3D magnetic structures-based memory and logic devices.
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约束几何中磁跳子的拓扑变换
三维(3D)拓扑磁性结构因其特殊的空间结构和引人入胜的物理学而引起了人们的极大兴趣。以霍普夫指数(Hopf index)为特征的霍普菲子是一种三维自旋纹理,它以封闭扭曲的天磁串形式出现。全面了解纳米结构内的磁性结构转变对其在自旋电子器件中的应用至关重要。尽管霍普菲翁的稳定和电流驱动动力学已得到证明,但它们在几何约束中的行为仍未得到探索。在这里,我们利用微磁模拟研究了各种纳米结构中跳子和环子之间的转变。通过调整椭圆形纳米盘的轴向比例,我们发现椭圆形跳子可以转变为环状结构。此外,在有限尺寸的纳米带和阶梯状纳米结构中,也实现了由电流驱动的跳菲翁和环状结构之间的拓扑转变。这种变形和转变源于边界或边缘的排斥势。为了将现实空间观测与三维拓扑自旋构型联系起来,我们模拟了上述磁性结构的洛伦兹透射电子显微镜图像。这项研究揭示了hopfions的动力学和变形,将为基于三维磁结构的存储器和逻辑器件注入新的活力。
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