"Manipulating Skyrmion Motion on a Nanotrack with Varied Material Param" by Jia Luo, Jia Hao Guo et al.
 

Manipulating Skyrmion Motion on a Nanotrack with Varied Material Parameters and Tilted Spin Currents

Document Type

Article

Publication Date

9-1-2023

Abstract

Magnetic skyrmions are topological quasiparticles with nanoscale size and high mobility, which have potential applications in information storage and spintronic devices. The manipulation of skyrmion’s dynamics in the track is an important topic due to the skyrmion Hall effect, which can deviate the skyrmions from the preferred direction. We propose a new model based on the ferromagnetic skyrmion, where the skyrmion velocity can be well controlled by adjusting the direction of the current. Using this design, we can avoid the annihilation of the skyrmion induced by the skyrmion Hall effect, which is confirmed by our micromagnetic simulation based on Mumax3. In the meantime, we increase the average velocity of the skyrmion by varying the intrinsic material parameters in the track, where the simulations agree well with our analytical results based on the Thiele equation. Finally, we give a phase diagram of the output of the skyrmion in the T-type track, which provides some practical ways for design of logic gates by manipulating crystalline anisotropy through the electrical control.

Identifier

85173090274 (Scopus)

Publication Title

Chinese Physics Letters

External Full Text Location

https://doi.org/10.1088/0256-307X/40/9/097501

e-ISSN

17413540

ISSN

0256307X

Issue

9

Volume

40

Grant

2021ZYD0025

Fund Ref

National Natural Science Foundation of China

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