Electric field-controlled magnetization switching in Co/Pt thin-film ferromagnets

A. Siddique, Shuo Gu, R. Witte, M. Ghahremani, Chidubem A. Nwokoye, A. Aslani, R. Kruk, V. Provenzano, L. H. Bennett, E. Torre
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Abstract

Abstract A study of dynamic and reversible voltage-controlled magnetization switching in ferromagnetic Co/Pt thin film with perpendicular magnetic anisotropy at room temperature is presented. The change in the magnetic properties of the system is observed in a relatively thick film of 15 nm. A surface charge is induced by the formation of electrochemical double layer between the metallic thin film and non-aqueous lithium LiClO4 electrolyte to manipulate the magnetism. The change in the magnetic properties occurred by the application of an external electric field. As the negative voltage was increased, the coercivity and the switching magnetic field decreased thus activating magnetization switching. The results are envisaged to lead to faster and ultra-low-power magnetization switching as compared to spin-transfer torque (STT) switching in spintronic devices.
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Co/Pt薄膜铁磁体的电场控制磁化开关
摘要研究了室温下垂直磁各向异性铁磁Co/Pt薄膜的动态可逆压控磁化开关。在相对较厚的15nm薄膜中观察到系统磁性能的变化。通过在金属薄膜和非水电解质之间形成电化学双层来诱导表面电荷来操纵磁性。磁性能的变化是由外加电场引起的。随着负电压的增加,矫顽力和开关磁场减小,从而激活磁化开关。与自旋电子器件中的自旋转移转矩(STT)开关相比,预计该结果将导致更快和超低功率的磁化开关。
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Cogent Physics
Cogent Physics PHYSICS, MULTIDISCIPLINARY-
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