Probing multiferroicity and spin-spin interactions via dielectric measurements on Y-doped HoMnO3 in high magnetic fields

Abstract

The magnetic field dependent phase diagram of the ferroelectric material Ho1-xYxMnO3 has been investigated for x = 0, 0.6, and 0.8 for fields directed along both the ab in-plane and c-axis basal plane directions. Dielectric measurements are used to map out the re-entrant temperature-magnetic field phase transitions which involve in-plane Mn spin rotations in the antiferromagnetic state below the Neel temperature. We show through the alloy study that the Ho sublattice plays a major role in all transitions, and that the phase diagram for Ho1-xYxMnO3 is dependent on magnetic field direction. We describe this behavior in terms of the interaction of the Ho sublattice spin system with the underlying, robust YMnO3 antiferromagnetic triangular lattice, where the Ho-Y spin interactions are highly sensitive to concentration and field direction.

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