Wu Hao, Xu Yong, Deng Peng, Pan Quanjun, Razavi Seyed Armin, Wong Kin, Huang Li, Dai Bingqian, Shao Qiming, Yu Guoqiang, Han Xiufeng, Rojas-Sánchez Juan-Carlos, Mangin Stéphane, Wang Kang L
Department of Electrical and Computer Engineering, and Department of Physics and Astronomy, University of California, Los Angeles, CA, 90095, USA.
Institut Jean Lamour, CNRS UMR 7198, Université de Lorraine, Nancy, F-54500, France.
Adv Mater. 2019 Aug;31(35):e1901681. doi: 10.1002/adma.201901681. Epub 2019 Jul 8.
Utilizing spin-orbit torque (SOT) to switch a magnetic moment provides a promising route for low-power-dissipation spintronic devices. Here, the SOT switching of a nearly compensated ferrimagnet Gd (FeCo) by the topological insulator [Bi Se and (BiSb) Te ] is investigated at room temperature. The switching current density of (BiSb) Te (1.20 × 10 A cm ) is more than one order of magnitude smaller than that in conventional heavy-metal-based structures, which indicates the ultrahigh efficiency of charge-spin conversion (>1) in topological surface states. By tuning the net magnetic moment of Gd (FeCo) via changing the composition, the SOT efficiency has a significant enhancement (6.5 times) near the magnetic compensation point, and at the same time the switching speed can be as fast as several picoseconds. Combining the topological surface states and the nearly compensated ferrimagnets provides a promising route for practical energy-efficient and high-speed spintronic devices.
利用自旋轨道矩(SOT)来切换磁矩为低功耗自旋电子器件提供了一条很有前景的途径。在此,研究了在室温下拓扑绝缘体[Bi₂Se₃和(BiSb)₂Te₃]对近补偿亚铁磁体Gd(FeCo)₂的SOT切换。(BiSb)₂Te₃的切换电流密度(1.20×10⁶ A/cm²)比传统重金属基结构中的切换电流密度小一个多数量级,这表明拓扑表面态中电荷 - 自旋转换效率超高(>1)。通过改变成分来调节Gd(FeCo)₂的净磁矩,在磁补偿点附近SOT效率有显著提高(6.5倍),同时切换速度可快至几皮秒。将拓扑表面态和近补偿亚铁磁体相结合为实用的节能高速自旋电子器件提供了一条很有前景的途径。
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