Origin of Ferroelectricity in Orthorhombic LuFeO3

Abstract

We demonstrate that small but finite ferroelectric polarization (0.01 μC/cm2) emerges in orthorhombic LuFeO3 (Pnma) at TN (600 K) because of commensurate (k = 0) and collinear magnetic structure. The synchrotron x-ray and neutron diffraction data suggest that the polarization could originate from enhanced bond covalency together with subtle contribution from lattice. The theoretical calculations indicate enhancement of bond covalency as well as the possibility of structural transition to the polar Pna21 phase below TN. The Pna21 phase, in fact, is found to be energetically favorable below TN in orthorhombic LuFeO3 (albeit with very small energy difference) than in isostructural and nonferroelectric LaFeO3 or NdFeO3. Application of electric field induces finite piezostriction in LuFeO3 via electrostriction resulting in clear domain contrast images in piezoresponse force microscopy.