Universal Hopping Motion Protected by Structural Topology

Authors
Song, MoojuneYou, MujinYang, SeungmoJu, Tae-SeongMoon, Kyoung-WoongHwang, ChanyongKim, Kyoung-WhanPark, Albert Min GyuKim, Kab-Jin
Issue Date
2022-10
Publisher
WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
Citation
Advanced Materials, v.34, no.40
Abstract
A scaling law elucidates the universality in nature, presiding over many physical phenomena which seem unrelated. Thus, exploring the universality class of scaling law in a particular system enlightens its physical nature in relevance to other systems and sometimes unearths an unprecedented new dynamic phase. Here, the dynamics of weakly driven magnetic skyrmions are investigated, and its scaling law is compared with the motion of a magnetic domain wall (DW) creep. This study finds that the skyrmion does not follow the scaling law of the DW creep in 2D space but instead shows a hopping behavior similar to that of the particle-like DW in 1D confinement. In addition, the hopping law satisfies even when a topological charge of the skyrmion is removed. Therefore, the distinct scaling behavior between the magnetic skyrmion and the DW stems from a general principle beyond the topological charge. This study demonstrates that the hopping behavior of skyrmions originates from the bottleneck process induced by DW segments with diverging collective lengths, which is inevitable in any closed-shape spin structure in 2D. This work reveals that the structural topology of magnetic texture determines the universality class of its weakly driven motion, which is distinguished from the universality class of magnetic DW creep.
Keywords
SKYRMION; DYNAMICS; CREEP; creep; hopping; magnetic skyrmions; structural topology; universality
ISSN
0935-9648
URI
https://pubs.kist.re.kr/handle/201004/114508
DOI
10.1002/adma.202203275
Appears in Collections:
KIST Article > 2022
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