Skyrmion Dynamics in a Double-Disk Geometry under an Electric Current

Sebastián Castillo-Sepúlveda; Javier A. Vélez; Rosa M. Corona; Vagson L. Carvalho-Santos; David Laroze; Dora Altbir

doi:10.3390/nano12183086

Skyrmion Dynamics in a Double-Disk Geometry under an Electric Current

Sebastián Castillo-Sepúlveda
, Javier A. Vélez
, Rosa M. Corona
, Vagson L. Carvalho-Santos
, David Laroze
, Dora Altbir

Instituto de Alta Investigación

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

3 Citas (Scopus)

Resumen

In this work, we present an analysis of skyrmion dynamics considering Dzyaloshinskii–Moriya interactions in an STNO device with a double-disk geometry. Three regimes were observed as a function of geometric parameters and the electric current density: (i) the skyrmion is annihilating at the system’s border; (ii) the skyrmion moves in a non-circular trajectory alternating its position between the two disks, and (iii) the skyrmion only rotates inside a one-disk subsystem. For the annihilation state, we found that the transient time decays within a stretched exponential law as a function of the electric current. Our results show a 2D state diagram that can guide new experimental work in order to obtain these specific behaviors for new applications based on skyrmion dynamics.

Idioma original	Inglés
Número de artículo	3086
Publicación	Nanomaterials
Volumen	12
N.º	18
DOI	https://doi.org/10.3390/nano12183086
Estado	Publicada - sep. 2022

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abstract = "In this work, we present an analysis of skyrmion dynamics considering Dzyaloshinskii–Moriya interactions in an STNO device with a double-disk geometry. Three regimes were observed as a function of geometric parameters and the electric current density: (i) the skyrmion is annihilating at the system{\textquoteright}s border; (ii) the skyrmion moves in a non-circular trajectory alternating its position between the two disks, and (iii) the skyrmion only rotates inside a one-disk subsystem. For the annihilation state, we found that the transient time decays within a stretched exponential law as a function of the electric current. Our results show a 2D state diagram that can guide new experimental work in order to obtain these specific behaviors for new applications based on skyrmion dynamics.",

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T1 - Skyrmion Dynamics in a Double-Disk Geometry under an Electric Current

AU - Castillo-Sepúlveda, Sebastián

AU - Vélez, Javier A.

AU - Corona, Rosa M.

AU - Carvalho-Santos, Vagson L.

AU - Laroze, David

AU - Altbir, Dora

PY - 2022/9

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N2 - In this work, we present an analysis of skyrmion dynamics considering Dzyaloshinskii–Moriya interactions in an STNO device with a double-disk geometry. Three regimes were observed as a function of geometric parameters and the electric current density: (i) the skyrmion is annihilating at the system’s border; (ii) the skyrmion moves in a non-circular trajectory alternating its position between the two disks, and (iii) the skyrmion only rotates inside a one-disk subsystem. For the annihilation state, we found that the transient time decays within a stretched exponential law as a function of the electric current. Our results show a 2D state diagram that can guide new experimental work in order to obtain these specific behaviors for new applications based on skyrmion dynamics.

AB - In this work, we present an analysis of skyrmion dynamics considering Dzyaloshinskii–Moriya interactions in an STNO device with a double-disk geometry. Three regimes were observed as a function of geometric parameters and the electric current density: (i) the skyrmion is annihilating at the system’s border; (ii) the skyrmion moves in a non-circular trajectory alternating its position between the two disks, and (iii) the skyrmion only rotates inside a one-disk subsystem. For the annihilation state, we found that the transient time decays within a stretched exponential law as a function of the electric current. Our results show a 2D state diagram that can guide new experimental work in order to obtain these specific behaviors for new applications based on skyrmion dynamics.

KW - dynamics

KW - magnetic skyrmions

KW - micromagnetism

KW - spin torque nano-oscillators

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DO - 10.3390/nano12183086

M3 - Article

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VL - 12

JO - Nanomaterials

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Skyrmion Dynamics in a Double-Disk Geometry under an Electric Current

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