Effect of temperature on domain wall–pore interactions in lead zirconate titanate: A phase-field study
Roman Indergand, Dennis M. Kochmann
Abstract
We study the influence of temperature on the interaction of nano-pores with ferroelectric domain walls in bulk single-crystalline lead zirconate titanate as a function of pore size and concentration. Using a density functional theory-informed finite-temperature phase-field model, we determine the electric field required to unpin 180 -domain walls from a periodic array of pores, thus gaining insight into the effect of temperature on domain wall kinetics in ferroelectrics with good qualitative agreement between simulated results and experimental measurements.
Topics & Concepts
Lead zirconate titanateMaterials scienceFerroelectricityElectric fieldDomain wall (magnetism)Phase (matter)Condensed matter physicsField (mathematics)ZirconateDomain (mathematical analysis)TitanateComposite materialDielectricChemistryMagnetic fieldOptoelectronicsPhysicsCeramicOrganic chemistryQuantum mechanicsMathematical analysisMathematicsPure mathematicsMagnetizationFerroelectric and Piezoelectric MaterialsSolidification and crystal growth phenomenaMaterial Dynamics and Properties