Spin wave propagation in corrugated waveguides

Igor Turčan, L. Flajšman, O. Wojewoda, Václav Roučka, O. Man, M. Urbánek
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引用次数: 9

Abstract

Curvature-induced effects allow us to tailor the static and dynamic response of a magnetic system with a high degree of freedom. We study corrugated magnonic waveguides deposited on a sinusoidally modulated substrate prepared by focused electron beam deposition. The surface curvature in films with thicknesses comparable to the amplitude of modulation locally modifies the contributions of dipolar and exchange energies and results in an effective anisotropy term which can be tuned on-demand based on the exact geometry. We show, by Brillouin light scattering microscopy, that without the presence of an external magnetic field, spin waves propagate over a distance 10$\times$larger in the corrugated waveguide than in the planar waveguide. Further, we analyze the influence of the modulation amplitude on spin-wave propagation and conclude that for moderate modulation amplitudes, the spin-wave decay length is not affected. For larger amplitudes, the decay length decreases linearly with increasing modulation.
自旋波在波纹波导中的传播
曲率诱导效应使我们能够高度自由地定制磁系统的静态和动态响应。本文研究了用聚焦电子束沉积法在正弦波调制衬底上沉积的波纹磁波导。厚度与调制幅度相当的薄膜的表面曲率局部改变了偶极和交换能的贡献,并产生了有效的各向异性项,该项可以根据精确的几何形状按需调整。我们通过布里渊光散射显微镜显示,在没有外部磁场存在的情况下,自旋波在波纹波导中的传播距离比在平面波导中的传播距离大10倍。进一步,我们分析了调制幅值对自旋波传播的影响,并得出结论,当调制幅值适中时,自旋波衰减长度不受影响。对于较大的振幅,衰减长度随着调制的增加而线性减小。
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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