2026-02-25 理化学研究所,科学技術振興機構
スキルミオン格子の変形による創発電場の発生
<関連情報>
- https://www.riken.jp/press/2026/20260225_1/index.html
- https://www.nature.com/articles/s41467-026-69698-1
電流駆動スキルミオン格子の変形によって誘起される創発リアクタンス Emergent reactance induced by the deformation of a current-driven skyrmion lattice
Matthew T. Littlehales,Max T. Birch,Akiko Kikkawa,Yasujiro Taguchi,Diego Alba Venero,Peter D. Hatton,Naoto Nagaosa,Yoshinori Tokura &Tomoyuki Yokouchi
Nature Communications Published:19 February 2026
DOI:https://doi.org/10.1038/s41467-026-69698-1 Unedited version
Abstract
Classical electromagnetism forms the foundation of modern technology. In condensed matter systems, the Berry phase acquired by conduction electrons acts as an emergent electromagnetic field, facilitating phenomena analogous to classical electromagnetism, such as the Lorentz force and electromagnetic induction, and paving the way for next-generation spintronics. Magnetic skyrmions, spin vortices with non-trivial topology, serve as a key platform for such devices. For example, non-trivial transport responses are recognised as being induced by the emergent Lorentz force and the emergent electromagnetic induction. Despite remarkable progress in skyrmion physics, emergent reactance, in which the phase of an applied AC current is modified by emergent electromagnetism, has not been thoroughly investigated. Here, we report emergent reactance in a micro-fabricated device of the prototypical skyrmion-hosting material, MnSi. Our findings reveal that the internal deformation degrees of freedom in skyrmions are an important factor for efficient generation of the emergent reactance.
