空中骑兵
自旋电子学
物理
消散
磁晶各向异性
自旋(空气动力学)
磁铁
磁学
自旋波
直线(几何图形)
凝聚态物理
纳米尺度
各向异性
刚度
频道(广播)
信号(编程语言)
磁畴壁(磁性)
作者
Xiao-Ping Ma,Qi-Shuo Wang,Kangjie Tian,Xiao‐Xue Yang,Hongyan Zhang,Zhaochu Luo,Hong‐Guang Piao
摘要
Magnetic skyrmions, as topologically protected spin textures, have emerged as promising candidates for information carriers in next-generation spintronic devices, owing to their nanoscale size, stability, and low driving-current requirements. However, their practical implementation faces significant challenges, including uncontrolled skyrmion motion, random generation, and weak readout signals, which hinder reliable device operation. The recently demonstrated capability to craft potential well lines by modulating local material parameters, such as magnetocrystalline anisotropy and exchange stiffness constant, provides solutions to these challenges. In this work, we proposed an approach to achieve precise skyrmion navigation along predefined trajectories using spin-wave excitation. The proposed method addresses the fundamental limitation in skyrmion propulsion driven by spin waves (SWs), where SW dissipation prevents sustained motion along the wave propagation direction over extended distances. Furthermore, our strategy enhances the readout signal amplitude, addressing a critical issue in skyrmion detection.
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