Order-disorder type critical behaviour at the magnetoelectric phase transition in multiferroic DyMnO3

Abstract

We present the results of detailed dielectric investigations of the relaxation dynamics in DyMnO3 multiferroic manganite. Strong low-frequency relaxation process near the paraelectric-ferroelectric phase transition is observed. The high frequency mode is directly to the relaxational motion of multiferroic domain walls. We provide an experimental evidence that this relaxation mode corresponds to a chirality switching of the spin cycloid in DyMnO3. We demonstrate that the relaxation dynamics in DyMnO3 is typical for an order-disorder phase transition and may be understood within a simple model with a double well potential. DyMnO3 follows an order-disorder transition scenario implicating that a short range cycloidal order of Mn-spins exists above TC. These results suggest the interpretation of the paraelectric sinusoidal phase in manganites as a dynamical equilibrium of magnetic cycloids with opposite chiralities.