Physics – Condensed Matter – Materials Science
Scientific paper
2012-01-26
Physics
Condensed Matter
Materials Science
18 pages, 6 figures, 1 appendix
Scientific paper
The role of elastic defects on the kinetics of 180-degree uncharged ferroelectric domain wall motion is explored using continuum time-dependent LGD equation with elastic dipole coupling. In one dimensional case, ripples, steps and oscillations of the domain wall velocity appear due to the wall-defect interactions. While the defects do not affect the limiting-wall velocity vs. field dependence, they result in the minimal threshold field required to activate the wall motions. The analytical expressions for the threshold field are derived and the latter is shown to be much smaller than the thermodynamic coercive field. The threshold field is linearly proportional to the concentration of defects and non-monotonically depends on the average distance between them. The obtained results provide the insight into the mesoscopic mechanism of the domain wall pinning by elastic defects in ferroelectrics.
Eliseev Eugene A.
Kalinin Sergei V.
Morozovska Anna N.
Svechnikov George S.
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