Interacting antiferromagnetic and ferroelectric domain structures

TL;DR

This paper investigates the coupling mechanisms between antiferromagnetic and ferroelectric domains in multiferroics, highlighting the role of inhomogeneous flexomagnetoelectric interactions in domain formation and rearrangement.

Contribution

It identifies the primary physical mechanism linking antiferromagnetic and ferroelectric domains as inhomogeneous flexomagnetoelectric interaction, providing new insights into domain structure formation.

Findings

Demonstrated the role of flexomagnetoelectric interaction in domain coupling

Analyzed how ferroelectric domain thickness affects magnetic domain patterns

Provided models illustrating domain rearrangement processes

Abstract

The correlation between antiferromagnetic and ferroelectric domain structures in multiferroics has been studied. The role of magnetoelectric interactions in a formation of antiferromagnetic domain structure has been analysed. It has been shown the major physical mechanism binding antiferromagnetic domains to ferroelectrics ones is inhomogeneous flexomagnetoelectric interaction of the Pz((lgrad)lz-lz(divl)) type. The dependences illustrating rearrangement of antiferromagnetic domain pattern together with change of ferroelectric domains thickness has been performed.