2026-07-02 東京科学大学

図1. らせん磁気構造の進む向き(磁気変調方向)が、電流の向きに応じて選択的に切り替わる様子を示した模式図。
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立方晶キラル磁性体におけるヘリ磁性qディレクターの電流極性による可逆的な再配向 Reversible reorientation of the helimagnetic q-director in a cubic chiral magnet by electric-current polarity
Soju Furuta,Yao Guang,Kosuke Karube,Yasujiro Taguchi,Wataru Koshibae,Xiuzhen Yu & Fumitaka Kagawa
Communications Materials Published:01 July 2026
DOI:https://doi.org/10.1038/s43246-026-01211-z
Abstract
Beyond ferromagnetism, controlling magnetic order using electric current remains a fundamental challenge in condensed-matter physics. In helimagnets, the spatial-modulation vector q represents an active degree of freedom in high-symmetry crystals, yet its deterministic reorientation under current has remained elusive. Here we demonstrate reversible and polarity-selective 90∘ reorientation of the q vector in the cubic chiral magnet Co8.5Zn8.5Mn3. We treat the q orientation as that of a rank-2 director—the symmetry-correct description for helimagnets—rather than as a vector and develop a symmetry-based framework in which the symmetry-allowed combination of current and magnetic field produces q-direction-dependent energy modulations. This mechanism predicts polarity-selective switching, even between orientations oblique to high-symmetry axes, which we directly confirm using in situ Lorentz transmission electron microscopy. Our results establish current polarity as a fundamental control parameter for helimagnetic order.


