Anomalous Coexistence of Ferroelectric Phases (P a and P c) in Orthorhombic Eu1-yYyMnO3 (y>0.5) Crystals

Abstract

We have investigated the magnetic and dielectric properties of orthorhombic Eu1-yYyMnO3 (0≤ y≤ 0.6) single crystals without the presence of the 4f magnetic moments of the rare-earth ions. In y≥ 0.2, the magnetic-structure driven ferroelectricity is observed. The ferroelectric transition temperature is steeply reducing with increasing y. In y≥ 0.52, two ferroelectric phases (P a and P c) are coexistent at low temperatures. In these phases, ferroelectricity has different origin, which is evidenced by the distinctive poling-electric-field dependence of electric polarization. Namely, the electric polarization along the c axis (Pc) is easily saturated by a poling electric field, therefore Pc is caused by the bc spiral antiferromagnetic order. On the other hand, the electric polarization along the a axis (Pa) is probably attributed to the collinear E-type antiferromagnetic order, because Pa is unsaturated even in a poling field of 106 V/m.