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Room temperature energy-efficient spin-orbit torque switching in two-dimensional van der Waals Fe3GeTe2 induced by topological insulators

Author

Listed:
  • Haiyu Wang

    (School of Integrated Circuit Science and Engineering, Beihang University
    Beihang University)

  • Hao Wu

    (University of California)

  • Jie Zhang

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Yingjie Liu

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Dongdong Chen

    (Chinese Academy of Sciences)

  • Chandan Pandey

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Jialiang Yin

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Dahai Wei

    (Chinese Academy of Sciences)

  • Na Lei

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Shuyuan Shi

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Haichang Lu

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Peng Li

    (Auburn University)

  • Albert Fert

    (School of Integrated Circuit Science and Engineering, Beihang University
    University of Paris-Saclay)

  • Kang L. Wang

    (University of California)

  • Tianxiao Nie

    (School of Integrated Circuit Science and Engineering, Beihang University)

  • Weisheng Zhao

    (School of Integrated Circuit Science and Engineering, Beihang University)

Abstract

Two-dimensional (2D) ferromagnetic materials with unique magnetic properties have great potential for next-generation spintronic devices with high flexibility, easy controllability, and high heretointegrability. However, realizing magnetic switching with low power consumption at room temperature is challenging. Here, we demonstrate the room-temperature spin-orbit torque (SOT) driven magnetization switching in an all-van der Waals (vdW) heterostructure using an optimized epitaxial growth approach. The topological insulator Bi2Te3 not only raises the Curie temperature of Fe3GeTe2 (FGT) through interfacial exchange coupling but also works as a spin current source allowing the FGT to switch at a low current density of ~2.2×106 A/cm2. The SOT efficiency is ~2.69, measured at room temperature. The temperature and thickness-dependent SOT efficiency prove that the larger SOT in our system mainly originates from the nontrivial topological origin of the heterostructure. Our experiments enable an all-vdW SOT structure and provides a solid foundation for the implementation of room-temperature all-vdW spintronic devices in the future.

Suggested Citation

  • Haiyu Wang & Hao Wu & Jie Zhang & Yingjie Liu & Dongdong Chen & Chandan Pandey & Jialiang Yin & Dahai Wei & Na Lei & Shuyuan Shi & Haichang Lu & Peng Li & Albert Fert & Kang L. Wang & Tianxiao Nie & W, 2023. "Room temperature energy-efficient spin-orbit torque switching in two-dimensional van der Waals Fe3GeTe2 induced by topological insulators," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40714-y
    DOI: 10.1038/s41467-023-40714-y
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    1. Ioan Mihai Miron & Kevin Garello & Gilles Gaudin & Pierre-Jean Zermatten & Marius V. Costache & Stéphane Auffret & Sébastien Bandiera & Bernard Rodmacq & Alain Schuhl & Pietro Gambardella, 2011. "Perpendicular switching of a single ferromagnetic layer induced by in-plane current injection," Nature, Nature, vol. 476(7359), pages 189-193, August.
    2. A. R. Mellnik & J. S. Lee & A. Richardella & J. L. Grab & P. J. Mintun & M. H. Fischer & A. Vaezi & A. Manchon & E.-A. Kim & N. Samarth & D. C. Ralph, 2014. "Spin-transfer torque generated by a topological insulator," Nature, Nature, vol. 511(7510), pages 449-451, July.
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    1. Yong Xu & Fan Zhang & Albert Fert & Henri-Yves Jaffres & Yongshan Liu & Renyou Xu & Yuhao Jiang & Houyi Cheng & Weisheng Zhao, 2024. "Orbitronics: light-induced orbital currents in Ni studied by terahertz emission experiments," Nature Communications, Nature, vol. 15(1), pages 1-7, December.

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