Skyrmion propagation along curved racetracks

V. L. Carvalho-Santos; M. A. Castro; D. Salazar-Aravena; D. Laroze; R. M. Corona; S. Allende; D. Altbir

doi:10.1063/5.0045969

Skyrmion propagation along curved racetracks

V. L. Carvalho-Santos
, M. A. Castro
, D. Salazar-Aravena
, D. Laroze
, R. M. Corona
, S. Allende
, D. Altbir

Instituto de Alta Investigación

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

28 Citas (Scopus)

Resumen

The interplay between curvature and magnetization is a cornerstone in magnetism. Thus, in this work, we address the role of curvature on the propagation of magnetic skyrmions along a curved race track. Using a micromagnetic approach and simulations, we observed the creation of a curvature-induced force (CIF) that acts on the skyrmion while traveling along the track. We also show that curvature can stop the skyrmion if the current density is below a critical value. Above this limit, the skyrmion goes through the defect, a direct consequence of the CIF. Our results allow a better definition of the electric current needed for moving skyrmions along curved tracks.

Idioma original	Inglés
Número de artículo	172407
Publicación	Applied Physics Letters
Volumen	118
N.º	17
DOI	https://doi.org/10.1063/5.0045969
Estado	Publicada - 26 abr. 2021

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title = "Skyrmion propagation along curved racetracks",

abstract = "The interplay between curvature and magnetization is a cornerstone in magnetism. Thus, in this work, we address the role of curvature on the propagation of magnetic skyrmions along a curved race track. Using a micromagnetic approach and simulations, we observed the creation of a curvature-induced force (CIF) that acts on the skyrmion while traveling along the track. We also show that curvature can stop the skyrmion if the current density is below a critical value. Above this limit, the skyrmion goes through the defect, a direct consequence of the CIF. Our results allow a better definition of the electric current needed for moving skyrmions along curved tracks.",

author = "Carvalho-Santos, \{V. L.\} and Castro, \{M. A.\} and D. Salazar-Aravena and D. Laroze and Corona, \{R. M.\} and S. Allende and D. Altbir",

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T1 - Skyrmion propagation along curved racetracks

AU - Carvalho-Santos, V. L.

AU - Castro, M. A.

AU - Salazar-Aravena, D.

AU - Laroze, D.

AU - Corona, R. M.

AU - Allende, S.

AU - Altbir, D.

PY - 2021/4/26

Y1 - 2021/4/26

N2 - The interplay between curvature and magnetization is a cornerstone in magnetism. Thus, in this work, we address the role of curvature on the propagation of magnetic skyrmions along a curved race track. Using a micromagnetic approach and simulations, we observed the creation of a curvature-induced force (CIF) that acts on the skyrmion while traveling along the track. We also show that curvature can stop the skyrmion if the current density is below a critical value. Above this limit, the skyrmion goes through the defect, a direct consequence of the CIF. Our results allow a better definition of the electric current needed for moving skyrmions along curved tracks.

AB - The interplay between curvature and magnetization is a cornerstone in magnetism. Thus, in this work, we address the role of curvature on the propagation of magnetic skyrmions along a curved race track. Using a micromagnetic approach and simulations, we observed the creation of a curvature-induced force (CIF) that acts on the skyrmion while traveling along the track. We also show that curvature can stop the skyrmion if the current density is below a critical value. Above this limit, the skyrmion goes through the defect, a direct consequence of the CIF. Our results allow a better definition of the electric current needed for moving skyrmions along curved tracks.

UR - https://www.scopus.com/pages/publications/85104877047

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DO - 10.1063/5.0045969

M3 - Article

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SN - 0003-6951

VL - 118

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 17

M1 - 172407

ER -

Skyrmion propagation along curved racetracks

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