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Main Authors: Jena, Sukanta Kumar, Lenz, Kilian, Zelent, Mateusz, Moalic, Mathieu, Lynnyk, Artem, Pietruczik, Aleksiej, Aleszkiewicz, Paweł, Milińska, Ewelina, Lindner, Jürgen, Wawro, Andrzej
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.06865
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author Jena, Sukanta Kumar
Lenz, Kilian
Zelent, Mateusz
Moalic, Mathieu
Lynnyk, Artem
Pietruczik, Aleksiej
Aleszkiewicz, Paweł
Milińska, Ewelina
Lindner, Jürgen
Wawro, Andrzej
author_facet Jena, Sukanta Kumar
Lenz, Kilian
Zelent, Mateusz
Moalic, Mathieu
Lynnyk, Artem
Pietruczik, Aleksiej
Aleszkiewicz, Paweł
Milińska, Ewelina
Lindner, Jürgen
Wawro, Andrzej
contents The dynamic behavior and stabilization of skyrmions in magnetic multilayers are critical for advancing spintronic and magnonic technologies. In our study, we investigate the static and dynamic properties of $[Re/Co(d_{Co})/Pt]_{20}$ multilayers with varying Co thicknesses $(6\text{-}24 \, \text{Å})$, showcasing a transition from out-of-plane to in-plane magnetic anisotropy. Magnetization reversal leads to a transformation from labyrinth domains to skyrmion bubbles due to the interfacial Dzyaloshinskii-Moriya interaction (iDMI). Using angle-dependent imaging at remanence, we confirm that skyrmions can be stabilized without an external magnetic field at specific polar angles, with the stabilization angle increasing alongside Co thickness. Ferromagnetic resonance spectroscopy reveals four distinct resonant modes, including low-frequency $(2\text{-}18\text{GHz})$, high-frequency $(20\text{-}35 \, \text{GHz})$ modes, depending on the magnetization texture. The frequency range of these modes narrows with decreasing effective anisotropy and iDMI strength decreases in thicker Co layers in perpendicular configurations. Moreover, we observe a decrease in effective Gilbert damping with increasing Co thickness, highlighting the potential for efficient energy dissipation. These findings link between material properties and skyrmion dynamics directly and demonstrate tunable resonant modes for magnonic devices. By addressing both static and dynamic aspects, our work advances the development of next-generation spintronic and magnonic applications.
format Preprint
id arxiv_https___arxiv_org_abs_2501_06865
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Angle-dependent resonant dynamics of stripes and skyrmions in Re/Co/Pt multilayers
Jena, Sukanta Kumar
Lenz, Kilian
Zelent, Mateusz
Moalic, Mathieu
Lynnyk, Artem
Pietruczik, Aleksiej
Aleszkiewicz, Paweł
Milińska, Ewelina
Lindner, Jürgen
Wawro, Andrzej
Materials Science
The dynamic behavior and stabilization of skyrmions in magnetic multilayers are critical for advancing spintronic and magnonic technologies. In our study, we investigate the static and dynamic properties of $[Re/Co(d_{Co})/Pt]_{20}$ multilayers with varying Co thicknesses $(6\text{-}24 \, \text{Å})$, showcasing a transition from out-of-plane to in-plane magnetic anisotropy. Magnetization reversal leads to a transformation from labyrinth domains to skyrmion bubbles due to the interfacial Dzyaloshinskii-Moriya interaction (iDMI). Using angle-dependent imaging at remanence, we confirm that skyrmions can be stabilized without an external magnetic field at specific polar angles, with the stabilization angle increasing alongside Co thickness. Ferromagnetic resonance spectroscopy reveals four distinct resonant modes, including low-frequency $(2\text{-}18\text{GHz})$, high-frequency $(20\text{-}35 \, \text{GHz})$ modes, depending on the magnetization texture. The frequency range of these modes narrows with decreasing effective anisotropy and iDMI strength decreases in thicker Co layers in perpendicular configurations. Moreover, we observe a decrease in effective Gilbert damping with increasing Co thickness, highlighting the potential for efficient energy dissipation. These findings link between material properties and skyrmion dynamics directly and demonstrate tunable resonant modes for magnonic devices. By addressing both static and dynamic aspects, our work advances the development of next-generation spintronic and magnonic applications.
title Angle-dependent resonant dynamics of stripes and skyrmions in Re/Co/Pt multilayers
topic Materials Science
url https://arxiv.org/abs/2501.06865