Title :
Electronic Ferroelectricity from Charge Ordering in RFe2O4
Author :
Ikeda, N. ; Mori, S. ; Yoshii, K. ; Matsuo, Y.
Author_Institution :
Okayama Univ., Okayama
Abstract :
We report a novel ferroelectricity arise from the polar ordering of Fe3+ and Fe2+ in a mixed valence triangular lattice oxide LuFe2O4, where the electric polarization do not arise from the ionic displacement. The polar ordering of Fe3+ and Fe2+ was confirmed with a resonant X-ray scattering study in SPring-8. The origin of such ordering is the competitive interaction between Fe3+ and Fe2+ in the triangular lattice, i.e. the charge frustration. The polar superlattice of Fe3+ and Fe2+ develops below 350 K where the electric polarization appears. The ferroelectricity arising from the polar charge ordering or the polar electron distribution may have a great potential for the future application of ferroelectrics.
Keywords :
X-ray scattering; crystal structure; dielectric polarisation; dysprosium compounds; erbium compounds; ferroelectric materials; ferroelectricity; holmium compounds; lutetium compounds; thulium compounds; ytterbium compounds; yttrium compounds; DyFe2O4; ErFe2O4; HoFe2O4; LuFe2O4; TmFe2O4; YFe2O4; YbFe2O4; charge frustration; charge ordering; competitive interaction; electric polarization; electronic ferroelectricity; polar electron distribution; polar ordering; polar superlattice; resonant X-ray scattering; triangular lattice; Atomic measurements; Chemicals; Electrons; Iron; Lattices; Physics; Polarization; Resonance; Stacking; Superlattices;
Conference_Titel :
Applications of Ferroelectrics, 2007. ISAF 2007. Sixteenth IEEE International Symposium on
Conference_Location :
Nara
Print_ISBN :
978-1-4244-1334-8
Electronic_ISBN :
1099-4734
DOI :
10.1109/ISAF.2007.4393232
