Magnetic Skyrmion Tubes as Nonplanar Magnonic Waveguides

空中骑兵 自旋波 磁学 物理 平面的 背景(考古学) 磁场 自旋(空气动力学) 凝聚态物理 铁磁性 自旋极化 自旋霍尔效应 计算机科学 量子力学 热力学 生物 计算机图形学(图像) 电子 古生物学
作者
Xiangjun Xing,Yan Zhou,Hans‐Benjamin Braun
出处
期刊:Physical review applied [American Physical Society]
卷期号:13 (3) 被引量:9
标识
DOI:10.1103/physrevapplied.13.034051
摘要

Various latest experiments have proven the theoretical prediction that domain walls in planar magnetic structures can channel spin waves as outstanding magnonic waveguides, establishing a superb platform for building magnonic devices. Recently, three-dimensional nanomagnetism has been boosted up and become a significant branch of magnetism, because three-dimensional magnetic structures expose a lot of emerging physics hidden behind planar ones and will inevitably provide broader room for device engineering. Skyrmions and antiSkyrmions, as natural three-dimensional magnetic configurations, are not considered yet in the context of spin-wave channeling and steering. Here, we show that skyrmion tubes can act as nonplanar magnonic waveguides if excited suitably. An isolated skyrmion tube in a magnetic nanoprism induces spatially separate internal and edge channels of spin waves; the internal channel has a narrower energy gap, compared to the edge channel, and accordingly can transmit signals at lower frequencies. Additionally, we verify that those spin-wave beams along magnetic nanoprism are restricted to the regions of potential wells. Transmission of spin-wave signals in such waveguides results from the coherent propagation of locally driven eigenmodes of skyrmions, i.e., the breathing and rotational modes. Finally, we find that spin waves along the internal channels are less susceptible to magnetic field than those along the edge channels. Our work will open a new arena for spin-wave manipulation and help bridge skyrmionics and magnonics.

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