Direct Observation of Magnetic Skyrmions and Their Current-Induced Dynamics in Epitaxial Single-Crystal Oxide Films
Jine Zhang, Jine Zhang, Mengqin Wang, Zhizhong Zhang, Hailin Huang, Liang Zhu, Dan Liu, Hui Zhang, Furong Han, Huaiwen Yang, Jing Zhang, Jing Zhang, Zhe Li, Wenxiao Shi, Jie Zheng, Yunzhong Chen, Yunzhong Chen, Fengxia Hu, Hongxin Yang, Weisheng Zhao, Baogen Shen, Yue Zhang, Yuansha Chen, Yuansha Chen, Jirong Sun
Abstract
Magnetic skyrmions are scarcely investigated for single-crystal quality films, for which skyrmions may have a remarkable performance. Even in the limited studies in this aspect, the skyrmions are usually probed by the topological Hall effect, missing important information on dynamic properties. Here, we present a comprehensive investigation on the generation/manipulation of magnetic skyrmions in La 0.67 Ba 0.33 MnO 3 single-crystal films. Using the technique of magnetic force microscopy, the current-driven skyrmion dynamics are directly observed. Unlike isolated skyrmions produced by magnetic field alone, closely packed skyrmions can be generated by electric pulses in a magnetic background, with a high density (∼60/μm 2 ) and a small size (dozens of nanometers). The threshold current moving skyrmions is ∼2.3 × 10 4 A/cm 2, 2–3 orders of magnitude lower than that required by metallic multilayers or van der Waals ferromagnetic heterostructures. Our work demonstrates the great potential of single-crystal oxide films in developing skyrmion-based devices.