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Giant magneto-elastic coupling in multiferroic hexagonal manganites

Author

Listed:
  • Seongsu Lee

    (SungKyunKwan University
    Center for Strongly Correlated Materials Research, Seoul National University)

  • A. Pirogov

    (SungKyunKwan University
    Center for Strongly Correlated Materials Research, Seoul National University)

  • Misun Kang

    (SungKyunKwan University)

  • Kwang-Hyun Jang

    (SungKyunKwan University)

  • M. Yonemura

    (Institute of Materials Structure Science, KEK, Tsukuba 305-0801, Japan)

  • T. Kamiyama

    (Institute of Materials Structure Science, KEK, Tsukuba 305-0801, Japan)

  • S.-W. Cheong

    (Rutgers University, Piscataway, New Jersey 08854, USA)

  • F. Gozzo

    (Swiss Light Source, Paul Scherrer Institut)

  • Namsoo Shin

    (Pohang Accelerator Laboratory, Pohang University of Science and Technology, Pohang, 790-784, Korea)

  • H. Kimura

    (Institute of Multidisciplinary Research for Advanced Materials, Tohoku University)

  • Y. Noda

    (Institute of Multidisciplinary Research for Advanced Materials, Tohoku University)

  • J.-G. Park

    (SungKyunKwan University
    Center for Strongly Correlated Materials Research, Seoul National University
    Institute of Materials Structure Science, KEK, Tsukuba 305-0801, Japan)

Abstract

The motion of atoms in a solid always responds to cooling or heating in a way that is consistent with the symmetry of the given space group of the solid to which they belong1,2. When the atoms move, the electronic structure of the solid changes, leading to different physical properties. Therefore, the determination of where atoms are and what atoms do is a cornerstone of modern solid-state physics. However, experimental observations of atomic displacements measured as a function of temperature are very rare, because those displacements are, in almost all cases, exceedingly small3,4,5. Here we show, using a combination of diffraction techniques, that the hexagonal manganites RMnO3 (where R is a rare-earth element) undergo an isostructural transition with exceptionally large atomic displacements: two orders of magnitude larger than those seen in any other magnetic material, resulting in an unusually strong magneto-elastic coupling. We follow the exact atomic displacements of all the atoms in the unit cell as a function of temperature and find consistency with theoretical predictions based on group theories. We argue that this gigantic magneto-elastic coupling in RMnO3 holds the key to the recently observed magneto-electric phenomenon in this intriguing class of materials6.

Suggested Citation

  • Seongsu Lee & A. Pirogov & Misun Kang & Kwang-Hyun Jang & M. Yonemura & T. Kamiyama & S.-W. Cheong & F. Gozzo & Namsoo Shin & H. Kimura & Y. Noda & J.-G. Park, 2008. "Giant magneto-elastic coupling in multiferroic hexagonal manganites," Nature, Nature, vol. 451(7180), pages 805-808, February.
    • Handle: RePEc:nat:nature:v:451:y:2008:i:7180:d:10.1038_nature06507
    DOI: 10.1038/nature06507
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    Cited by:

    1. Ha-Leem Kim & Takuma Saito & Heejun Yang & Hiroaki Ishizuka & Matthew John Coak & Jun Han Lee & Hasung Sim & Yoon Seok Oh & Naoto Nagaosa & Je-Geun Park, 2024. "Thermal Hall effects due to topological spin fluctuations in YMnO3," Nature Communications, Nature, vol. 15(1), pages 1-6, December.

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