The origin of ferroelectricity in magnetoelectric YMnO3

BB Van Aken, TTM Palstra, A Filippetti, NA Spaldin*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

1103 Citations (Scopus)
1698 Downloads (Pure)

Abstract

Understanding the ferroelectrocity in magnetic ferroelectric oxides is of both fundamental and technological importance. Here, we identify the nature of the ferroelectric phase transition in the hexagonal manganite, YMnO3, using a combination of single-crystal X-ray diffraction, thorough structure analysis and first-principles density-functional calculations. The ferroelectric phase is characterized by a buckling of the layered MnO5 polyhedra, accompanied by displacements of the Y ions, which lead to a net electric polarization. Our calculations show that the mechanism is driven entirely by electrostatic and size effects, rather than the usual changes in chemical bonding associated with ferroelectric phase transitions in perovskite oxides. As a result, the usual indicators of structural instability, such as anomalies in Born effective charges on the active ions, do not hold. In contrast to the chemically stabilized ferroelectrics, this mechanism for ferroelectricity permits the coexistence of magnetism and ferroelectricity, and so suggests an avenue for designing novel magnetic ferroelectrics.

Original languageEnglish
Pages (from-to)164-170
Number of pages7
JournalNature Materials
Volume3
Issue number3
DOIs
Publication statusPublished - Mar-2004

Keywords

  • PROPRIETES MAGNETIQUES
  • ELECTRONIC-STRUCTURE
  • MANGANITE DYTTRIUM
  • PEROVSKITE OXIDES
  • PHASE-TRANSITIONS
  • CRYSTAL-STRUCTURE
  • HEXAGONAL YMNO3
  • POLARIZATION
  • DISTORTIONS
  • DIFFRACTION

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