材料科学
范德瓦尔斯力
凝聚态物理
空中骑兵
铁磁性
格子(音乐)
拉伤
化学物理
量子力学
物理
声学
分子
医学
内科学
作者
Xinyi Zhou,Iftikhar Ahmed Malik,Ruihuan Duan,Hanqing Shi,Chen Liu,Yan Luo,Yue Sun,Ruixi Chen,Yilin Liu,Shian Xia,Vanessa Li Zhang,Sheng Liu,Chao Zhu,Xixiang Zhang,Yi Du,Zheng Liu,Ting Yu
标识
DOI:10.1002/adma.202505977
摘要
Manipulating topological magnetic orders of 2D magnets by strain, once achieved, offers enormous potential for future low-power flexible spintronic applications. In this work, by placing Fe3GaTe2 (FGaT), a room-temperature 2D ferromagnet, on flexible substrate, a field-free and robust formation of skyrmion lattice induced by strain is demonstrated. By applying a minimal strain of ≈0.80% to pre-annealed FGaT flakes, the Magnetic Force Microscopy (MFM) tip directly triggers the transition from maze-like domains to an ordered skyrmion lattice while scanning the sample surface. The skyrmion lattice is rather stable against extensive cyclic mechanical testing (stretching, bending, and twisting over 2000 cycles each). It also exhibits stability across a wide range of magnetic fields (≈2.9 kOe) and temperatures (≈323 K), as well as long-term retention stability, highlighting its robustness and field-free stabilization. The strain effect reduces the lattice symmetry and enhances the Dzyaloshinskii-Moriya interaction (DMI) of FGaT, thus stabilizing the skyrmion lattice. The findings highlight the potential of FGaT for integrating magnetic skyrmions into future low-power-consumption flexible spintronics devices.
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