空中骑兵
自旋电子学
磁畴壁(磁性)
物理
磁畴
凝聚态物理
领域(数学分析)
动力学(音乐)
微磁学
运动(物理)
垂直的
自旋(空气动力学)
各向异性
纳米尺度
拓扑(电路)
磁场
磁各向异性
霍尔效应
磁化动力学
磁铁
电流
铁磁性
材料科学
作者
Xiao-Ping Ma,Xiaoxue Yang,Qi-Shuo Wang,Kangjie Tian,Hongyan Zhang,Zhaochu Luo,Hong-Guang Piao
摘要
Domain-wall skyrmions (DWSks) are topological spin textures confined within magnetic domain walls. These hybrid structures have recently attracted considerable interest due to their combination of advantageous features from both domain walls and skyrmions, including topological protection, low driving-current density, nanoscale size, and ease of read/write operations. Since DWSks are trapped within domain walls, theoretical studies suggest that their Hall motion can be substantially suppressed, enabling highly controllable one-dimensional propagation. However, in practice, when DWSks are driven by an electric current, the domain wall itself is also propelled into motion, which substantially increases the complexity of the dynamical behavior. In this study, we suppress domain wall motion by locally reducing the perpendicular magnetic anisotropy and systematically investigate the motion of DWSks within pinned domain walls. The proposed approach facilitates the design of densely arranged domain wall channels and supports the propagation of multiple DWSks within a single channel, consequently enhancing the integration density of DWSk-based devices. Our findings advance the understanding of DWSk dynamics and offer valuable insights for the development of future spintronic applications.
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