Voltage-Controlled Translational Motion of a Magnetic Skyrmion: a Magnetic Skyrmion Transistor

POSTER

Abstract

Since its experimental demonstration at room temperature, magnetic skyrmions have been intensively studied as one of novel information carriers because of their unique topological characteristics. Although many skyrmion devices—including a skyrmion racetrack memory, a skyrmion synapse device, and a skyrmion reshuffler—have been reported, voltage-controlled skyrmion devices have rarely been reported. Here, we demonstrate the spatial uniformity of voltage-controlled magnetic anisotropy. Using this technique, we prove that the shape and topology of a skyrmion are well-maintained when passing through two different anisotropy areas. Finally, a proof-of-concept experiment of a skyrmion transistor is presented, which has never been demonstrated experimentally. Our findings will open a new route toward the design and realization of skyrmion-based devices in the near future.

Presenters

  • Seungmo Yang

    • Korea Research Institute of Standards and Science, Republic of Korea
    • Korea Research Institute of Standards and Science

Authors

  • Seungmo Yang

    • Korea Research Institute of Standards and Science, Republic of Korea
    • Korea Research Institute of Standards and Science

  • Chanyong Hwang

    • Korea Research Institute of Standards and Science, Republic of Korea
    • Korea Research Inst of Standards and Sci

  • Jong Wan Son

    • Korea Research Institute of Standards and Science, Republic of Korea

  • Tae-Seong Ju

    • Korea Research Institute of Standards and Science, Republic of Korea
    • Korea Research Institute of Standards and Science

  • Duc Minh Tran

    • Konkuk University, Republic of Korea

  • Hee-Sung Han

    • Lawrence Berkeley National Laboratory

  • Sungkyun Park

    • Pusan Natl Univ

  • Bae Ho Park

    • Konkuk University, Republic of Korea

  • Kyoung-Woong Moon

    • Korea Research Institute of Standards and Science, Republic of Korea