- Main
Spin disorder control of topological spin texture
- Zhang, Hongrui;
- Shao, Yu-Tsun;
- Chen, Xiang;
- Zhang, Binhua;
- Wang, Tianye;
- Meng, Fanhao;
- Xu, Kun;
- Meisenheimer, Peter;
- Chen, Xianzhe;
- Huang, Xiaoxi;
- Behera, Piush;
- Husain, Sajid;
- Zhu, Tiancong;
- Pan, Hao;
- Jia, Yanli;
- Settineri, Nick;
- Giles-Donovan, Nathan;
- He, Zehao;
- Scholl, Andreas;
- N’Diaye, Alpha;
- Shafer, Padraic;
- Raja, Archana;
- Xu, Changsong;
- Martin, Lane W;
- Crommie, Michael F;
- Yao, Jie;
- Qiu, Ziqiang;
- Majumdar, Arun;
- Bellaiche, Laurent;
- Muller, David A;
- Birgeneau, Robert J;
- Ramesh, Ramamoorthy
- et al.
Published Web Location
https://doi.org/10.1038/s41467-024-47715-5Abstract
Stabilization of topological spin textures in layered magnets has the potential to drive the development of advanced low-dimensional spintronics devices. However, achieving reliable and flexible manipulation of the topological spin textures beyond skyrmion in a two-dimensional magnet system remains challenging. Here, we demonstrate the introduction of magnetic iron atoms between the van der Waals gap of a layered magnet, Fe3GaTe2, to modify local anisotropic magnetic interactions. Consequently, we present direct observations of the order-disorder skyrmion lattices transition. In addition, non-trivial topological solitons, such as skyrmioniums and skyrmion bags, are realized at room temperature. Our work highlights the influence of random spin control of non-trivial topological spin textures.
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