Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire

M. T. Birch; D. Cortés-Ortuño; K. Litzius; S. Wintz; F. Schulz; M. Weigand; A. Štefančič; D. A. Mayoh; G. Balakrishnan; P. D. Hatton; G. Schütz

doi:10.1038/s41467-022-31335-y

Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire

M. T. Birch^*, D. Cortés-Ortuño, K. Litzius, S. Wintz, F. Schulz, M. Weigand, A. Štefančič, D. A. Mayoh, G. Balakrishnan, P. D. Hatton, G. Schütz

^*Corresponding author for this work

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

Abstract

Research into practical applications of magnetic skyrmions, nanoscale solitons with interesting topological and transport properties, has traditionally focused on two dimensional (2D) thin-film systems. However, the recent observation of novel three dimensional (3D) skyrmion-like structures, such as hopfions, skyrmion strings (SkS), skyrmion bundles, and skyrmion braids, motivates the investigation of new designs, aiming to exploit the third spatial dimension for more compact and higher performance spintronic devices in 3D or curvilinear geometries. A crucial requirement of such device schemes is the control of the 3D magnetic structures via charge or spin currents, which has yet to be experimentally observed. In this work, we utilise real-space imaging to investigate the dynamics of a 3D SkS within a nanowire of Co₈Zn₉Mn₃ at room temperature. Utilising single current pulses, we demonstrate current-induced nucleation of a single SkS, and a toggle-like positional switching of an individual Bloch point at the end of a SkS. The observations highlight the possibility to locally manipulate 3D topological spin textures, opening up a range of design concepts for future 3D spintronic devices.

Original language	English
Article number	3630
Number of pages	8
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-31335-y
Publication status	Published - 24 Jun 2022

Bibliographical note

Funding Information:
We thank the Helmholtz-Zentrum für Materialien und Energie for the allocation of synchrotron beamtime. The work was partially funded by the UK Skyrmion Project EPSRC Programme Grant (EP/N032128/1). The authors grateful for the support of A. C. Harrison and U. Eigenthaler for advice on the focused ion beam fabrication.

Funding

We thank the Helmholtz-Zentrum für Materialien und Energie for the allocation of synchrotron beamtime. The work was partially funded by the UK Skyrmion Project EPSRC Programme Grant (EP/N032128/1). The authors grateful for the support of A. C. Harrison and U. Eigenthaler for advice on the focused ion beam fabrication. We thank the Helmholtz-Zentrum für Materialien und Energie for the allocation of synchrotron beamtime. The work was partially funded by the UK Skyrmion Project EPSRC Programme Grant (EP/N032128/1). The authors grateful for the support of A. C. Harrison and U. Eigenthaler for advice on the focused ion beam fabrication.

Keywords

magnetic devices
spintronics
Topological materials
micromagnetics

Access to Document

10.1038/s41467-022-31335-y

Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire - Birch et al - Nat Comms 2022Final published version, 6.56 MBLicence: CC BY

Cite this

@article{ea63497add1b4a6a81be221ba402aea7,

title = "Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire",

abstract = "Research into practical applications of magnetic skyrmions, nanoscale solitons with interesting topological and transport properties, has traditionally focused on two dimensional (2D) thin-film systems. However, the recent observation of novel three dimensional (3D) skyrmion-like structures, such as hopfions, skyrmion strings (SkS), skyrmion bundles, and skyrmion braids, motivates the investigation of new designs, aiming to exploit the third spatial dimension for more compact and higher performance spintronic devices in 3D or curvilinear geometries. A crucial requirement of such device schemes is the control of the 3D magnetic structures via charge or spin currents, which has yet to be experimentally observed. In this work, we utilise real-space imaging to investigate the dynamics of a 3D SkS within a nanowire of Co8Zn9Mn3 at room temperature. Utilising single current pulses, we demonstrate current-induced nucleation of a single SkS, and a toggle-like positional switching of an individual Bloch point at the end of a SkS. The observations highlight the possibility to locally manipulate 3D topological spin textures, opening up a range of design concepts for future 3D spintronic devices.",

keywords = "magnetic devices, spintronics, Topological materials, micromagnetics",

author = "Birch, \{M. T.\} and D. Cort{\'e}s-Ortu{\~n}o and K. Litzius and S. Wintz and F. Schulz and M. Weigand and A. {\v S}tefan{\v c}i{\v c} and Mayoh, \{D. A.\} and G. Balakrishnan and Hatton, \{P. D.\} and G. Sch{\"u}tz",

note = "Funding Information: We thank the Helmholtz-Zentrum f{\"u}r Materialien und Energie for the allocation of synchrotron beamtime. The work was partially funded by the UK Skyrmion Project EPSRC Programme Grant (EP/N032128/1). The authors grateful for the support of A. C. Harrison and U. Eigenthaler for advice on the focused ion beam fabrication.",

year = "2022",

month = jun,

day = "24",

doi = "10.1038/s41467-022-31335-y",

language = "English",

volume = "13",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

}

TY - JOUR

T1 - Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire

AU - Birch, M. T.

AU - Cortés-Ortuño, D.

AU - Litzius, K.

AU - Wintz, S.

AU - Schulz, F.

AU - Weigand, M.

AU - Štefančič, A.

AU - Mayoh, D. A.

AU - Balakrishnan, G.

AU - Hatton, P. D.

AU - Schütz, G.

N1 - Funding Information: We thank the Helmholtz-Zentrum für Materialien und Energie for the allocation of synchrotron beamtime. The work was partially funded by the UK Skyrmion Project EPSRC Programme Grant (EP/N032128/1). The authors grateful for the support of A. C. Harrison and U. Eigenthaler for advice on the focused ion beam fabrication.

PY - 2022/6/24

Y1 - 2022/6/24

N2 - Research into practical applications of magnetic skyrmions, nanoscale solitons with interesting topological and transport properties, has traditionally focused on two dimensional (2D) thin-film systems. However, the recent observation of novel three dimensional (3D) skyrmion-like structures, such as hopfions, skyrmion strings (SkS), skyrmion bundles, and skyrmion braids, motivates the investigation of new designs, aiming to exploit the third spatial dimension for more compact and higher performance spintronic devices in 3D or curvilinear geometries. A crucial requirement of such device schemes is the control of the 3D magnetic structures via charge or spin currents, which has yet to be experimentally observed. In this work, we utilise real-space imaging to investigate the dynamics of a 3D SkS within a nanowire of Co8Zn9Mn3 at room temperature. Utilising single current pulses, we demonstrate current-induced nucleation of a single SkS, and a toggle-like positional switching of an individual Bloch point at the end of a SkS. The observations highlight the possibility to locally manipulate 3D topological spin textures, opening up a range of design concepts for future 3D spintronic devices.

AB - Research into practical applications of magnetic skyrmions, nanoscale solitons with interesting topological and transport properties, has traditionally focused on two dimensional (2D) thin-film systems. However, the recent observation of novel three dimensional (3D) skyrmion-like structures, such as hopfions, skyrmion strings (SkS), skyrmion bundles, and skyrmion braids, motivates the investigation of new designs, aiming to exploit the third spatial dimension for more compact and higher performance spintronic devices in 3D or curvilinear geometries. A crucial requirement of such device schemes is the control of the 3D magnetic structures via charge or spin currents, which has yet to be experimentally observed. In this work, we utilise real-space imaging to investigate the dynamics of a 3D SkS within a nanowire of Co8Zn9Mn3 at room temperature. Utilising single current pulses, we demonstrate current-induced nucleation of a single SkS, and a toggle-like positional switching of an individual Bloch point at the end of a SkS. The observations highlight the possibility to locally manipulate 3D topological spin textures, opening up a range of design concepts for future 3D spintronic devices.

KW - magnetic devices

KW - spintronics

KW - Topological materials

KW - micromagnetics

UR - http://www.scopus.com/inward/record.url?scp=85132868696&partnerID=8YFLogxK

U2 - 10.1038/s41467-022-31335-y

DO - 10.1038/s41467-022-31335-y

M3 - Article

C2 - 35750676

AN - SCOPUS:85132868696

SN - 2041-1723

VL - 13

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3630

ER -

Toggle-like current-induced Bloch point dynamics of 3D skyrmion strings in a room temperature nanowire

Abstract

Bibliographical note

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this