2025-08-08 大阪公立大学
<関連情報>
- https://www.omu.ac.jp/info/research_news/entry-18973.html
- https://www.omu.ac.jp/assets/attachmentfile/attachmentfile-file-75478.pdf
- https://www.nature.com/articles/s41567-025-02982-x
量子ケビン・ヘルムホルツ不安定性から生じる安定した単一分数スカイリオンスピン構造 Stable singular fractional skyrmion spin texture from the quantum Kelvin–Helmholtz instability
SeungJung Huh,Wooyoung Yun,Gabin Yun,Samgyu Hwang,Kiryang Kwon,Junhyeok Hur,Seungho Lee,Hiromitsu Takeuchi,Se Kwon Kim & Jae-yoon Choi
Nature Physics Published:08 August 2025
DOI:https://doi.org/10.1038/s41567-025-02982-x
Abstract
Topological defects give rise to non-trivial excitations—such as solitons, vortices and skyrmions—characterized by integer-valued topological charges. However, their classification becomes difficult when singularities are present in the order parameter field, complicating the computation of these charges. Although exotic nonlinear excitations have been theoretically proposed in the superfluid 3He-A phase and spinor Bose–Einstein condensates, they have not been experimentally observed and their stability has not been investigated. Here we demonstrate the presence of a singular skyrmion that goes beyond the framework of topology in a ferromagnetic superfluid. These skyrmions emerge from anomalous symmetry-breaking associated with an eccentric spin singularity and carry half the elementary charge—a feature that distinguishes them from conventional skyrmions and merons. We realize the universal regime of the quantum Kelvin–Helmholtz instability, and we identify the unconventional fractional skyrmions produced by emission from a magnetic domain wall and the spontaneous splitting of an integer skyrmion with spin singularities. The singular skyrmions are stable even after 2 s of hold time. Our results confirm the universality between classical and quantum Kelvin–Helmholtz instabilities and broaden our understanding of complex nonlinear dynamics for a non-trivial texture in topological quantum systems.
