Canted standing spin-wave modes of permalloy thin films observed by ferromagnetic resonance

坡莫合金 凝聚态物理 铁磁共振 磁化 自旋波 物理 铁磁性 各向异性 磁各向异性 磁化动力学 磁场 光学 量子力学
作者
Maciej Dąbrowski,R. J. Hicken,Andreas Frisk,David G. Newman,Christoph Klewe,Alpha T. N’Diaye,Padraic Shafer,G. van der Laan,T. Hesjedal,Graham J. Bowden
出处
期刊:New Journal of Physics [IOP Publishing]
卷期号:23 (2): 023017-023017 被引量:7
标识
DOI:10.1088/1367-2630/abdd6b
摘要

Abstract Non-collinear spin structures in materials that combine perpendicular and in-plane magnetic anisotropies are of great technological interest for microwave and spin wave-assisted magnetization switching. [Co/Pt] multilayers are well-known perpendicular anisotropy materials that have the potential to pin the magnetization of a soft magnetic layer, such as permalloy (Py), that has in-plane anisotropy, thereby forming a magnetic exchange spring. Here we report on multilayered [Co/Pt]/Pt/Py films, where an additional ultrathin Pt spacer has been included to control the coupling between the sub-units with in-plane and perpendicular magnetic anisotropy. Vector network analyser (VNA)-ferromagnetic resonance (FMR) measurements were made to obtain a complete picture of the resonant conditions, while the dynamical response of the sub-units was probed by synchrotron-based element- and phase selective x-ray detected FMR (XFMR). For all samples, only slight pinning of the dynamic magnetization of the Py by the [Co/Pt] was noted, and the FMR results were dominated by the 50 nm thick Py layer. Out-of-plane VNA-FMR maps reveal the presence of additional modes, e.g. a perpendicular standing spin-wave (PSSW) state. However, as the magnetic field is reduced below the saturation field, the PSSW state morphs continuously through a series of canted standing spin-wave (CSSW) states into a horizontal standing spin-wave (HSSW) state. The PSSW, CSSW and HSSW states are well described using a multilayer model of the Py film. The observation of CSSW modes is of particular relevance to microwave assisted magnetic recording, where microwave excitation stimulates precession of a soft layer canted out of plane by a pulsed magnetic field.

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