Tailoring the energy landscape of a bloch point domain wall with curvature

Sandra Ruiz-Gómez; Claas Abert; Pamela Morales-Fernández; Claudia Fernández-González; Sabri Koraltan; Lukas Danesi; Dieter Suess; María Varela; Gabriel Sánchez-Santolino; Núria Bagués; Michael Foerster; Miguel Ángel Niño; Anna Mandziak; Dorota Wilgocka-Ślęzak; Pawel Nita; Markus Koenig; Sebastian Seifert; Aurelio Hierro-Rodriguez; Amalio Fernández-Pacheco; Claire Donnelly

doi:10.1038/s41467-025-62705-x

Tailoring the energy landscape of a bloch point domain wall with curvature

Sandra Ruiz-Gómez (Corresponding author), Claas Abert, Pamela Morales-Fernández, Claudia Fernández-González, Sabri Koraltan, Lukas Danesi, Dieter Suess, María Varela, Gabriel Sánchez-Santolino, Núria Bagués, Michael Foerster, Miguel Ángel Niño, Anna Mandziak, Dorota Wilgocka-Ślęzak, Pawel Nita, Markus Koenig, Sebastian Seifert, Aurelio Hierro-Rodriguez, Amalio Fernández-Pacheco, Claire Donnelly (Corresponding author)

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Topological defects, or singularities, play a key role in the statics and dynamics of complex systems. In magnetism, Bloch point singularities represent point defects that mediate the nucleation of textures such as skyrmions and hopfions. While these textures are typically stabilised in chiral magnets, the influence of chirality and symmetry breaking on Bloch point singularities remains relatively unexplored. Here, we harness advanced three-dimensional nanofabrication to explore the influence of symmetry breaking on Bloch point textures by introducing controlled nano-curvature in a ferromagnetic nanowire. Combining X-ray magnetic microscopy with the application of in situ magnetic fields, we demonstrate that Bloch point singularity-containing domain walls are stabilised in straight regions of the sample, and determine that curvature can be used to tune the energy landscape of the Bloch points. Not only are we able to pattern pinning points but, by controlling the gradient of curvature, we define asymmetric potential wells to realise a robust Bloch point texture shift-register with non-reciprocal behaviour. These insights into the influence of symmetry on singularities offer a route to the controlled nucleation and propagation of topological textures, providing opportunities for logic and computing devices.

Original language	English
Article number	7422
Number of pages	10
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-62705-x
Publication status	Published - 11 Aug 2025

Austrian Fields of Science 2012

103017 Magnetism
210004 Nanomaterials

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Ruiz-Gómez, S., Abert, C., Morales-Fernández, P., Fernández-González, C., Koraltan, S., Danesi, L., Suess, D., Varela, M., Sánchez-Santolino, G., Bagués, N., Foerster, M., Niño, M. Á., Mandziak, A., Wilgocka-Ślęzak, D., Nita, P., Koenig, M., Seifert, S., Hierro-Rodriguez, A., Fernández-Pacheco, A., & Donnelly, C. (2025). Tailoring the energy landscape of a bloch point domain wall with curvature. Nature Communications, 16(1), Article 7422. https://doi.org/10.1038/s41467-025-62705-x

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title = "Tailoring the energy landscape of a bloch point domain wall with curvature",

abstract = "Topological defects, or singularities, play a key role in the statics and dynamics of complex systems. In magnetism, Bloch point singularities represent point defects that mediate the nucleation of textures such as skyrmions and hopfions. While these textures are typically stabilised in chiral magnets, the influence of chirality and symmetry breaking on Bloch point singularities remains relatively unexplored. Here, we harness advanced three-dimensional nanofabrication to explore the influence of symmetry breaking on Bloch point textures by introducing controlled nano-curvature in a ferromagnetic nanowire. Combining X-ray magnetic microscopy with the application of in situ magnetic fields, we demonstrate that Bloch point singularity-containing domain walls are stabilised in straight regions of the sample, and determine that curvature can be used to tune the energy landscape of the Bloch points. Not only are we able to pattern pinning points but, by controlling the gradient of curvature, we define asymmetric potential wells to realise a robust Bloch point texture shift-register with non-reciprocal behaviour. These insights into the influence of symmetry on singularities offer a route to the controlled nucleation and propagation of topological textures, providing opportunities for logic and computing devices.",

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Ruiz-Gómez, S, Abert, C, Morales-Fernández, P, Fernández-González, C, Koraltan, S, Danesi, L, Suess, D, Varela, M, Sánchez-Santolino, G, Bagués, N, Foerster, M, Niño, MÁ, Mandziak, A, Wilgocka-Ślęzak, D, Nita, P, Koenig, M, Seifert, S, Hierro-Rodriguez, A, Fernández-Pacheco, A & Donnelly, C 2025, 'Tailoring the energy landscape of a bloch point domain wall with curvature', Nature Communications, vol. 16, no. 1, 7422. https://doi.org/10.1038/s41467-025-62705-x

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T1 - Tailoring the energy landscape of a bloch point domain wall with curvature

AU - Ruiz-Gómez, Sandra

AU - Abert, Claas

AU - Morales-Fernández, Pamela

AU - Fernández-González, Claudia

AU - Koraltan, Sabri

AU - Danesi, Lukas

AU - Suess, Dieter

AU - Varela, María

AU - Sánchez-Santolino, Gabriel

AU - Bagués, Núria

AU - Foerster, Michael

AU - Niño, Miguel Ángel

AU - Mandziak, Anna

AU - Wilgocka-Ślęzak, Dorota

AU - Nita, Pawel

AU - Koenig, Markus

AU - Seifert, Sebastian

AU - Hierro-Rodriguez, Aurelio

AU - Fernández-Pacheco, Amalio

AU - Donnelly, Claire

PY - 2025/8/11

Y1 - 2025/8/11

N2 - Topological defects, or singularities, play a key role in the statics and dynamics of complex systems. In magnetism, Bloch point singularities represent point defects that mediate the nucleation of textures such as skyrmions and hopfions. While these textures are typically stabilised in chiral magnets, the influence of chirality and symmetry breaking on Bloch point singularities remains relatively unexplored. Here, we harness advanced three-dimensional nanofabrication to explore the influence of symmetry breaking on Bloch point textures by introducing controlled nano-curvature in a ferromagnetic nanowire. Combining X-ray magnetic microscopy with the application of in situ magnetic fields, we demonstrate that Bloch point singularity-containing domain walls are stabilised in straight regions of the sample, and determine that curvature can be used to tune the energy landscape of the Bloch points. Not only are we able to pattern pinning points but, by controlling the gradient of curvature, we define asymmetric potential wells to realise a robust Bloch point texture shift-register with non-reciprocal behaviour. These insights into the influence of symmetry on singularities offer a route to the controlled nucleation and propagation of topological textures, providing opportunities for logic and computing devices.

AB - Topological defects, or singularities, play a key role in the statics and dynamics of complex systems. In magnetism, Bloch point singularities represent point defects that mediate the nucleation of textures such as skyrmions and hopfions. While these textures are typically stabilised in chiral magnets, the influence of chirality and symmetry breaking on Bloch point singularities remains relatively unexplored. Here, we harness advanced three-dimensional nanofabrication to explore the influence of symmetry breaking on Bloch point textures by introducing controlled nano-curvature in a ferromagnetic nanowire. Combining X-ray magnetic microscopy with the application of in situ magnetic fields, we demonstrate that Bloch point singularity-containing domain walls are stabilised in straight regions of the sample, and determine that curvature can be used to tune the energy landscape of the Bloch points. Not only are we able to pattern pinning points but, by controlling the gradient of curvature, we define asymmetric potential wells to realise a robust Bloch point texture shift-register with non-reciprocal behaviour. These insights into the influence of symmetry on singularities offer a route to the controlled nucleation and propagation of topological textures, providing opportunities for logic and computing devices.

UR - https://www.scopus.com/pages/publications/105012981685

U2 - 10.1038/s41467-025-62705-x

DO - 10.1038/s41467-025-62705-x

M3 - Article

C2 - 40790126

AN - SCOPUS:105012981685

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 7422

ER -

Tailoring the energy landscape of a bloch point domain wall with curvature

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Austrian Fields of Science 2012

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