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Main Authors: Siegfried, Peter E., Maus, Mark, Bornstein, Alexander C., Wulferding, Dirk, JeehoonKim, Baumbach, Ryan E., Bauer, Eric D., Ronning, Filip, Lee, Minhyea
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.16020
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author Siegfried, Peter E.
Maus, Mark
Bornstein, Alexander C.
Wulferding, Dirk
JeehoonKim
Baumbach, Ryan E.
Bauer, Eric D.
Ronning, Filip
Lee, Minhyea
author_facet Siegfried, Peter E.
Maus, Mark
Bornstein, Alexander C.
Wulferding, Dirk
JeehoonKim
Baumbach, Ryan E.
Bauer, Eric D.
Ronning, Filip
Lee, Minhyea
contents We study the Hall effect, AC magnetic susceptibility ($χ_{\rm ac}$), and magnetic force microscopy of the uniaxial ferromagnet CeRu$_2$Ga$_2$B with a centrosymmetric crystal structure. We observe a finite topological Hall effect (THE) within the ordered phase before the magnetization is polarized by applied field. By comparing the field dependences of the area fraction of the magnetic bubbles, the derivative of $χ_{\rm ac}$, and the THE signal, we deduce that the magnetic bubbles of CeRu$_2$Ga$_2$B evolve from the trivial to topological spin texture with field. Our findings will be utilized to expand the search for magnetic materials hosting the topological spin textures to ones with uniaxial anisotropy, and open a new possibility to tailor the topological spin texture.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16020
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Evolution of magnetic bubble domains in the uniaxial ferromagnet CeRu$_2$Ga$_2$B inferred from the Hall effect and ac magnetic susceptibility
Siegfried, Peter E.
Maus, Mark
Bornstein, Alexander C.
Wulferding, Dirk
JeehoonKim
Baumbach, Ryan E.
Bauer, Eric D.
Ronning, Filip
Lee, Minhyea
Strongly Correlated Electrons
We study the Hall effect, AC magnetic susceptibility ($χ_{\rm ac}$), and magnetic force microscopy of the uniaxial ferromagnet CeRu$_2$Ga$_2$B with a centrosymmetric crystal structure. We observe a finite topological Hall effect (THE) within the ordered phase before the magnetization is polarized by applied field. By comparing the field dependences of the area fraction of the magnetic bubbles, the derivative of $χ_{\rm ac}$, and the THE signal, we deduce that the magnetic bubbles of CeRu$_2$Ga$_2$B evolve from the trivial to topological spin texture with field. Our findings will be utilized to expand the search for magnetic materials hosting the topological spin textures to ones with uniaxial anisotropy, and open a new possibility to tailor the topological spin texture.
title Evolution of magnetic bubble domains in the uniaxial ferromagnet CeRu$_2$Ga$_2$B inferred from the Hall effect and ac magnetic susceptibility
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2508.16020