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Stretching magnetism with an electric field in a nitride semiconductor

Author

Listed:
  • D. Sztenkiel

    (Institute of Physics, Polish Academy of Sciences)

  • M. Foltyn

    (Institute of Physics, Polish Academy of Sciences)

  • G. P. Mazur

    (Institute of Physics, Polish Academy of Sciences)

  • R. Adhikari

    (Institut für Halbleiter- und Festkörperphysik, Johannes Kepler University
    Linz Institute of Technology, Johannes Kepler University)

  • K. Kosiel

    (Institute of Electron Technology)

  • K. Gas

    (Institute of Physics, Polish Academy of Sciences
    Institute of Experimental Physics, University of Wrocław)

  • M. Zgirski

    (Institute of Physics, Polish Academy of Sciences)

  • R. Kruszka

    (Institute of Electron Technology)

  • R. Jakiela

    (Institute of Physics, Polish Academy of Sciences)

  • Tian Li

    (Institute of Physics, Polish Academy of Sciences)

  • A. Piotrowska

    (Institute of Electron Technology)

  • A. Bonanni

    (Institut für Halbleiter- und Festkörperphysik, Johannes Kepler University
    Linz Institute of Technology, Johannes Kepler University)

  • M. Sawicki

    (Institute of Physics, Polish Academy of Sciences)

  • T. Dietl

    (Institute of Physics, Polish Academy of Sciences
    Institute of Theoretical Physics, University of Warsaw
    WPI-Advanced Institute for Materials Research, Tohoku University)

Abstract

The significant inversion symmetry breaking specific to wurtzite semiconductors, and the associated spontaneous electrical polarization, lead to outstanding features such as high density of carriers at the GaN/(Al,Ga)N interface—exploited in high-power/high-frequency electronics—and piezoelectric capabilities serving for nanodrives, sensors and energy harvesting devices. Here we show that the multifunctionality of nitride semiconductors encompasses also a magnetoelectric effect allowing to control the magnetization by an electric field. We first demonstrate that doping of GaN by Mn results in a semi-insulating material apt to sustain electric fields as high as 5 MV cm−1. Having such a material we find experimentally that the inverse piezoelectric effect controls the magnitude of the single-ion magnetic anisotropy specific to Mn3+ ions in GaN. The corresponding changes in the magnetization can be quantitatively described by a theory developed here.

Suggested Citation

  • D. Sztenkiel & M. Foltyn & G. P. Mazur & R. Adhikari & K. Kosiel & K. Gas & M. Zgirski & R. Kruszka & R. Jakiela & Tian Li & A. Piotrowska & A. Bonanni & M. Sawicki & T. Dietl, 2016. "Stretching magnetism with an electric field in a nitride semiconductor," Nature Communications, Nature, vol. 7(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13232
    DOI: 10.1038/ncomms13232
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