Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers

Magnetic skyrmions are promising objects for future spintronic devices. However, a better understanding of their dynamics is required. Here, the authors show that in contrast to predictions the skyrmion Hall angle is independent of their diameter and motion is dominated by disorder and skyrmion-skyr...

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Autores principales: Katharina Zeissler, Simone Finizio, Craig Barton, Alexandra J. Huxtable, Jamie Massey, Jörg Raabe, Alexandr V. Sadovnikov, Sergey A. Nikitov, Richard Brearton, Thorsten Hesjedal, Gerrit van der Laan, Mark C. Rosamond, Edmund H. Linfield, Gavin Burnell, Christopher H. Marrows
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/b160973f50bd490694798179b4d546e1
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spelling oai:doaj.org-article:b160973f50bd490694798179b4d546e12021-12-02T14:40:52ZDiameter-independent skyrmion Hall angle observed in chiral magnetic multilayers10.1038/s41467-019-14232-92041-1723https://doaj.org/article/b160973f50bd490694798179b4d546e12020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-14232-9https://doaj.org/toc/2041-1723Magnetic skyrmions are promising objects for future spintronic devices. However, a better understanding of their dynamics is required. Here, the authors show that in contrast to predictions the skyrmion Hall angle is independent of their diameter and motion is dominated by disorder and skyrmion-skyrmion interactions in the system.Katharina ZeisslerSimone FinizioCraig BartonAlexandra J. HuxtableJamie MasseyJörg RaabeAlexandr V. SadovnikovSergey A. NikitovRichard BreartonThorsten HesjedalGerrit van der LaanMark C. RosamondEdmund H. LinfieldGavin BurnellChristopher H. MarrowsNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-11 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Katharina Zeissler
Simone Finizio
Craig Barton
Alexandra J. Huxtable
Jamie Massey
Jörg Raabe
Alexandr V. Sadovnikov
Sergey A. Nikitov
Richard Brearton
Thorsten Hesjedal
Gerrit van der Laan
Mark C. Rosamond
Edmund H. Linfield
Gavin Burnell
Christopher H. Marrows
Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
description Magnetic skyrmions are promising objects for future spintronic devices. However, a better understanding of their dynamics is required. Here, the authors show that in contrast to predictions the skyrmion Hall angle is independent of their diameter and motion is dominated by disorder and skyrmion-skyrmion interactions in the system.
format article
author Katharina Zeissler
Simone Finizio
Craig Barton
Alexandra J. Huxtable
Jamie Massey
Jörg Raabe
Alexandr V. Sadovnikov
Sergey A. Nikitov
Richard Brearton
Thorsten Hesjedal
Gerrit van der Laan
Mark C. Rosamond
Edmund H. Linfield
Gavin Burnell
Christopher H. Marrows
author_facet Katharina Zeissler
Simone Finizio
Craig Barton
Alexandra J. Huxtable
Jamie Massey
Jörg Raabe
Alexandr V. Sadovnikov
Sergey A. Nikitov
Richard Brearton
Thorsten Hesjedal
Gerrit van der Laan
Mark C. Rosamond
Edmund H. Linfield
Gavin Burnell
Christopher H. Marrows
author_sort Katharina Zeissler
title Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
title_short Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
title_full Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
title_fullStr Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
title_full_unstemmed Diameter-independent skyrmion Hall angle observed in chiral magnetic multilayers
title_sort diameter-independent skyrmion hall angle observed in chiral magnetic multilayers
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/b160973f50bd490694798179b4d546e1
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