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Orbital torque switching in perpendicularly magnetized materials

Author

Listed:
  • Yuhe Yang

    (Tiangong University)

  • Ping Wang

    (Tiangong University
    Cangzhou Institute of Tiangong University)

  • Jiali Chen

    (Beijing Institute of Technology
    Beijing Institute of Technology)

  • Delin Zhang

    (Tiangong University
    Tiangong University
    Cangzhou Institute of Tiangong University)

  • Chang Pan

    (Tongji University)

  • Shuai Hu

    (Tiangong University)

  • Ting Wang

    (Tiangong University)

  • Wensi Yue

    (Tiangong University)

  • Cheng Chen

    (Tiangong University)

  • Wei Jiang

    (Beijing Institute of Technology
    Beijing Institute of Technology)

  • Lujun Zhu

    (Shaanxi Normal University)

  • Xuepeng Qiu

    (Tongji University)

  • Yugui Yao

    (Beijing Institute of Technology
    Beijing Institute of Technology)

  • Yue Li

    (Tiangong University)

  • Wenhong Wang

    (Tiangong University
    Tiangong University
    Tiangong University)

  • Yong Jiang

    (Tiangong University
    Tiangong University)

Abstract

The orbital Hall effect in light materials has attracted considerable attention for developing orbitronic devices. Here we investigate the orbital torque efficiency and demonstrate the switching of the perpendicularly magnetized materials through the orbital Hall material, i.e., Zr. The orbital torque efficiency of approximately 0.78 is achieved in the Zr orbital Hall material with the perpendicularly magnetized [Co/Pt]3 sample, which significantly surpasses that of the perpendicularly magnetized CoFeB/Gd/CoFeB sample (approximately 0.04). Such a notable difference is attributed to the different spin-orbit correlation strength between the [Co/Pt]3 sample and the CoFeB/Gd/CoFeB sample, confirmed through theoretical calculations. Furthermore, the full magnetization switching of the [Co/Pt]3 samples with a switching current density of approximately 2.6×106 A/cm2 has been realized through Zr, which even outperforms that of the W spin Hall material. Our finding provides a guideline to understand orbital torque efficiency and paves the way for developing energy-efficient orbitronic devices.

Suggested Citation

  • Yuhe Yang & Ping Wang & Jiali Chen & Delin Zhang & Chang Pan & Shuai Hu & Ting Wang & Wensi Yue & Cheng Chen & Wei Jiang & Lujun Zhu & Xuepeng Qiu & Yugui Yao & Yue Li & Wenhong Wang & Yong Jiang, 2024. "Orbital torque switching in perpendicularly magnetized materials," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52824-2
    DOI: 10.1038/s41467-024-52824-2
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