Quantitative study of the pinning effect of the edge dislocation on domain wall motion in Barium Titanate thin films

Abstract: Dislocation is a very important one-dimensional defect in ferroelectrics. This work introduces an easy and flexible model of implementing the edge dislocation by introducing eigenstrain at the interface, and it could be easily extended to incorporate the surface stress to refine the analysis of ferroelectric thin films. The influence of dislocations on the ferroelectric domain wall motion and hysteresis loop including the remanent polarization and coercive field using phase-field simulations is analyzed. The pinning effect of the dislocation on the domain wall motion is discussed and whether the domain wall is pined is the competition between the external loading and the magnitude of the burgers vector of the dislocation. This work could contribute to the understanding of the pining effect of the dislocation and provide guidance for the fabrication of ferroelectric thin films.