Распространение невзаимных спиновых волн в многослойном магнонном кристалле

Физика твердого тела Pub Date : 2023-01-01 DOI:10.21883/ftt.2023.06.55657.18h

С А Одинцов, А.С. Пташенко, Эдвин Гарривич Локк, Е. Н. Бегинин, Александр Владимирович Садовников

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Abstract

The possibility of frequency-selective propagation of spin waves in a magnonic microwave guide with a magnonic crystal consisting of two layers with different values of the saturation magnetization in the layers is demonstrated. It is shown that multimode propagation of spin waves can occur inside a two-layer structure in two frequency ranges, while the presence of a magnonic crystal on the surface of the structure leads to the manifestation of a band gap in one of the frequency ranges. At the same time, the process of propagation of a spin-wave signal is accompanied by a strong nonreciprocity, which manifests itself in a change in the amplitude-frequency characteristics when the direction of the external magnetic field is reversed, while the frequency range of the band gap differs depending on the direction of the field. The proposed concept of a two-layer spin-wave waveguide can underlie the manufacture of multichannel filters or magnonic logic devices.

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多层木兰晶体中非外部性自旋波传播

研究了磁振子晶体在两层饱和磁化强度不同的情况下，自旋波在磁振子微波波导中频率选择性传播的可能性。结果表明，在两种频率范围内，自旋波可以在两层结构内进行多模传播，而在结构表面存在磁振子晶体会导致其中一种频率范围内出现带隙。同时，自旋波信号在传播过程中伴随着强的非互易性，表现为当外加磁场方向相反时，其幅频特性发生变化，而带隙的频率范围随外加磁场方向的不同而不同。提出的双层自旋波波导的概念可以作为制造多通道滤波器或磁逻辑器件的基础。

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