无序天幕阵列中拓扑磁子的鲁棒性

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-04-09 DOI:arxiv-2404.06541

H. Diego Rosales, Roberto E. Troncoso

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摘要

本文研究了无序对二维铁磁天幕拓扑磁子态稳健性的影响。它是通过评估实空间拓扑不变量--玻色玻特指数（BI）来诊断的。这种失序同时打破了天磁阵列的轴对称形状和晶体有序性。相应的磁子波动和带谱是根据磁场和失序强度确定的。我们观察到，随着单个星形粒子开始占据随机位置，现有的带隙开始闭合。分析表明，当天空粒子达到玻璃相时，拓扑态（TSs）的持续时间超过了微扰极限。此外，拓扑保护边沿态的局域化会在局域化长度不断增加的过程中被无序的天融结构所削弱。我们的发现揭示了无序磁纹理与拓扑自旋波动共存的物理原理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Robustness of topological magnons in disordered arrays of skyrmions

The effects of disorder on the robustness of topological magnon states of two-dimensional ferromagnetic skyrmions is investigated. It is diagnosed by evaluating a real space topological invariant, the bosonic Bott index (BI). The disorder simultaneously breaks the axially symmetric shape and the crystalline ordering of the skyrmions array. The corresponding magnonic fluctuations and band spectrum are determined in terms of magnetic field and strength of disorder. We observe the closing of the existing band gaps as the individual skyrmions start to occupy random positions. The analysis reveals that topological states (TSs) persist beyond the perturbative limit when skyrmions reach the glassy phase. In addition, the localization of topologically protected edge states is weakened by the disordered skyrmion structure with increasing localization length. Our findings shed light on the physical understanding of the coexistence of disordered magnetic textures and their topological spin fluctuations.

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arXiv - PHYS - Other Condensed Matter

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