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Magnetoelectric effect and phase transitions in CuO in external magnetic fields

Author

Listed:
  • Zhaosheng Wang

    (Hochfeld-Magnetlabor Dresden (HLD-EMFL), Helmholtz-Zentrum Dresden-Rossendorf)

  • Navid Qureshi

    (Institut Laue Langevin, 6 rue Jules Horowitz)

  • Shadi Yasin

    (Hochfeld-Magnetlabor Dresden (HLD-EMFL), Helmholtz-Zentrum Dresden-Rossendorf
    American University of the Middle East, College of Engineering and Technology)

  • Alexander Mukhin

    (Prokhorov General Physics Institute, Russian Academy of Sciences)

  • Eric Ressouche

    (SPSMS, UMR-E CEA/UJF-Grenoble 1, INAC)

  • Sergei Zherlitsyn

    (Hochfeld-Magnetlabor Dresden (HLD-EMFL), Helmholtz-Zentrum Dresden-Rossendorf)

  • Yurii Skourski

    (Hochfeld-Magnetlabor Dresden (HLD-EMFL), Helmholtz-Zentrum Dresden-Rossendorf)

  • Julian Geshev

    (Instituto de Física, Universidade Federal do Rio Grande do Sul, Porto Alegre
    Departament de Física, Universitat Autònoma de Barcelona)

  • Vsevolod Ivanov

    (Prokhorov General Physics Institute, Russian Academy of Sciences)

  • Marin Gospodinov

    (Institute of Solid State Physics, Bulgarian Academy of Sciences)

  • Vassil Skumryev

    (Departament de Física, Universitat Autònoma de Barcelona
    Institució Catalana de Recerca i Estudis Avançats)

Abstract

Apart from being so far the only known binary multiferroic compound, CuO has a much higher transition temperature into the multiferroic state, 230 K, than any other known material in which the electric polarization is induced by spontaneous magnetic order, typically lower than 100 K. Although the magnetically induced ferroelectricity of CuO is firmly established, no magnetoelectric effect has been observed so far as direct crosstalk between bulk magnetization and electric polarization counterparts. Here we demonstrate that high magnetic fields of ≈50 T are able to suppress the helical modulation of the spins in the multiferroic phase and dramatically affect the electric polarization. Furthermore, just below the spontaneous transition from commensurate (paraelectric) to incommensurate (ferroelectric) structures at 213 K, even modest magnetic fields induce a transition into the incommensurate structure and then suppress it at higher field. Thus, remarkable hidden magnetoelectric features are uncovered, establishing CuO as prototype multiferroic with abundance of competitive magnetic interactions.

Suggested Citation

  • Zhaosheng Wang & Navid Qureshi & Shadi Yasin & Alexander Mukhin & Eric Ressouche & Sergei Zherlitsyn & Yurii Skourski & Julian Geshev & Vsevolod Ivanov & Marin Gospodinov & Vassil Skumryev, 2016. "Magnetoelectric effect and phase transitions in CuO in external magnetic fields," Nature Communications, Nature, vol. 7(1), pages 1-8, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10295
    DOI: 10.1038/ncomms10295
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