Accelerating, guiding, and compressing skyrmions by defect rails

Josep Castell-Queralt; Leonardo González-Gómez; Nuria Del-Valle; Alvaro Sanchez; Carles Navau

doi:10.1039/c9nr02171j

Accelerating, guiding, and compressing skyrmions by defect rails

Josep Castell-Queralt, Leonardo González-Gómez, Nuria Del-Valle, Alvaro Sanchez, Carles Navau^*

^*Autor corresponent d’aquest treball

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

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Resum

Magnetic skyrmions are promising candidates as information carriers in spintronic devices. The transport of individual skyrmions in a fast and controlled way is a key issue in this field. Here we introduce a platform for accelerating, guiding and compressing skyrmions along predefined paths. The guiding mechanism is based on two parallel line defects (rails), one attractive and the other repulsive. Numerical simulations, using parameters from state-of-the-art experiments, show that the speed of the skyrmions along the rails can be increased up to an order of magnitude with respect to the non-defect case whereas the distance between rails can be as small as the initial radius of the skyrmions. In this way, the flux of information that can be coded and transported with magnetic skyrmions could be significantly increased.

Idioma original	Anglès
Pàgines (de-a)	12589-12594
Nombre de pàgines	6
Revista	Nanoscale
Volum	11
Número	26
DOIs	https://doi.org/10.1039/c9nr02171j
Estat de la publicació	Publicada - 14 de jul. 2019

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title = "Accelerating, guiding, and compressing skyrmions by defect rails",

abstract = "Magnetic skyrmions are promising candidates as information carriers in spintronic devices. The transport of individual skyrmions in a fast and controlled way is a key issue in this field. Here we introduce a platform for accelerating, guiding and compressing skyrmions along predefined paths. The guiding mechanism is based on two parallel line defects (rails), one attractive and the other repulsive. Numerical simulations, using parameters from state-of-the-art experiments, show that the speed of the skyrmions along the rails can be increased up to an order of magnitude with respect to the non-defect case whereas the distance between rails can be as small as the initial radius of the skyrmions. In this way, the flux of information that can be coded and transported with magnetic skyrmions could be significantly increased.",

author = "Josep Castell-Queralt and Leonardo Gonz{\'a}lez-G{\'o}mez and Nuria Del-Valle and Alvaro Sanchez and Carles Navau",

note = "Publisher Copyright: {\textcopyright} 2019 The Royal Society of Chemistry.",

year = "2019",

month = jul,

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doi = "10.1039/c9nr02171j",

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T1 - Accelerating, guiding, and compressing skyrmions by defect rails

AU - Castell-Queralt, Josep

AU - González-Gómez, Leonardo

AU - Del-Valle, Nuria

AU - Sanchez, Alvaro

AU - Navau, Carles

PY - 2019/7/14

Y1 - 2019/7/14

N2 - Magnetic skyrmions are promising candidates as information carriers in spintronic devices. The transport of individual skyrmions in a fast and controlled way is a key issue in this field. Here we introduce a platform for accelerating, guiding and compressing skyrmions along predefined paths. The guiding mechanism is based on two parallel line defects (rails), one attractive and the other repulsive. Numerical simulations, using parameters from state-of-the-art experiments, show that the speed of the skyrmions along the rails can be increased up to an order of magnitude with respect to the non-defect case whereas the distance between rails can be as small as the initial radius of the skyrmions. In this way, the flux of information that can be coded and transported with magnetic skyrmions could be significantly increased.

AB - Magnetic skyrmions are promising candidates as information carriers in spintronic devices. The transport of individual skyrmions in a fast and controlled way is a key issue in this field. Here we introduce a platform for accelerating, guiding and compressing skyrmions along predefined paths. The guiding mechanism is based on two parallel line defects (rails), one attractive and the other repulsive. Numerical simulations, using parameters from state-of-the-art experiments, show that the speed of the skyrmions along the rails can be increased up to an order of magnitude with respect to the non-defect case whereas the distance between rails can be as small as the initial radius of the skyrmions. In this way, the flux of information that can be coded and transported with magnetic skyrmions could be significantly increased.

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DO - 10.1039/c9nr02171j

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JO - Nanoscale

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Accelerating, guiding, and compressing skyrmions by defect rails

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