Dynamics of the Bloch point in an asymmetric permalloy disk

Mi Young Im; Hee Sung Han; Min Seung Jung; Young Sang Yu; Sooseok Lee; Seongsoo Yoon; Weilun Chao; Peter Fischer; Jung Il Hong; Ki Suk Lee

doi:10.1038/s41467-019-08327-6

Dynamics of the Bloch point in an asymmetric permalloy disk

Mi Young Im
, Hee Sung Han
, Min Seung Jung
, Young Sang Yu
, Sooseok Lee
, Seongsoo Yoon
, Weilun Chao
, Peter Fischer
, Jung Il Hong
, Ki Suk Lee

Department of Physics and Chemistry

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

A Bloch point (BP) is a topological defect in a ferromagnet at which the local magnetization vanishes. With the difficulty of generating a stable BP in magnetic nanostructures, the intrinsic nature of a BP and its dynamic behaviour has not been verified experimentally. We report a realization of steady-state BPs embedded in deformed magnetic vortex cores in asymmetrically shaped Ni₈₀Fe₂₀ nanodisks. Time-resolved nanoscale magnetic X-ray imaging combined with micromagnetic simulation shows detailed dynamic character of BPs, revealing rigid and limited lateral movements under magnetic field pulses as well as its crucial role in vortex-core dynamics. Direct visualizations of magnetic structures disclose the unique dynamical feature of a BP as an atomic scale discrete spin texture and allude its influence on the neighbouring spin structures such as magnetic vortices.

Original language	English
Article number	593
Journal	Nature Communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-08327-6
State	Published - 1 Dec 2019

Bibliographical note

Publisher Copyright:
© 2019, The Author(s).

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Cite this

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abstract = "A Bloch point (BP) is a topological defect in a ferromagnet at which the local magnetization vanishes. With the difficulty of generating a stable BP in magnetic nanostructures, the intrinsic nature of a BP and its dynamic behaviour has not been verified experimentally. We report a realization of steady-state BPs embedded in deformed magnetic vortex cores in asymmetrically shaped Ni80Fe20 nanodisks. Time-resolved nanoscale magnetic X-ray imaging combined with micromagnetic simulation shows detailed dynamic character of BPs, revealing rigid and limited lateral movements under magnetic field pulses as well as its crucial role in vortex-core dynamics. Direct visualizations of magnetic structures disclose the unique dynamical feature of a BP as an atomic scale discrete spin texture and allude its influence on the neighbouring spin structures such as magnetic vortices.",

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AU - Im, Mi Young

AU - Han, Hee Sung

AU - Jung, Min Seung

AU - Yu, Young Sang

AU - Lee, Sooseok

AU - Yoon, Seongsoo

AU - Chao, Weilun

AU - Fischer, Peter

AU - Hong, Jung Il

AU - Lee, Ki Suk

PY - 2019/12/1

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N2 - A Bloch point (BP) is a topological defect in a ferromagnet at which the local magnetization vanishes. With the difficulty of generating a stable BP in magnetic nanostructures, the intrinsic nature of a BP and its dynamic behaviour has not been verified experimentally. We report a realization of steady-state BPs embedded in deformed magnetic vortex cores in asymmetrically shaped Ni80Fe20 nanodisks. Time-resolved nanoscale magnetic X-ray imaging combined with micromagnetic simulation shows detailed dynamic character of BPs, revealing rigid and limited lateral movements under magnetic field pulses as well as its crucial role in vortex-core dynamics. Direct visualizations of magnetic structures disclose the unique dynamical feature of a BP as an atomic scale discrete spin texture and allude its influence on the neighbouring spin structures such as magnetic vortices.

AB - A Bloch point (BP) is a topological defect in a ferromagnet at which the local magnetization vanishes. With the difficulty of generating a stable BP in magnetic nanostructures, the intrinsic nature of a BP and its dynamic behaviour has not been verified experimentally. We report a realization of steady-state BPs embedded in deformed magnetic vortex cores in asymmetrically shaped Ni80Fe20 nanodisks. Time-resolved nanoscale magnetic X-ray imaging combined with micromagnetic simulation shows detailed dynamic character of BPs, revealing rigid and limited lateral movements under magnetic field pulses as well as its crucial role in vortex-core dynamics. Direct visualizations of magnetic structures disclose the unique dynamical feature of a BP as an atomic scale discrete spin texture and allude its influence on the neighbouring spin structures such as magnetic vortices.

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VL - 10

JO - Nature Communications

JF - Nature Communications

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Dynamics of the Bloch point in an asymmetric permalloy disk

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