Add to ORKGWe show that flexoelectric effect is responsible for the non-Ising character of a 180° ferroelectric domain wall. The wall, long considered being of Ising type, contains both Bloch- and Néel-type polarization components. Using the example of classic ferroelectric BaTiO3, and by incorporating the flexoelectric effect into a phase-field model, it is demonstrated that the flexoelectric effect arising from stress inhomogeneity around the domain wall leads to the additional Bloch and Néel polarization components. The magnitudes of these additional components are two or three magnitudes smaller than the Ising component, and they are determined by the competing depolarization and flexoelectric fields. Our results from phase-field model are consist...
Weak piezoelectricity, compared with electrostriction, occurs in twinned ferroelastic materials even...
The structure and electronic phenomena at the 180-degree domain wall in the rhombohedral phase of Ba...
Ferroelectric and ferroelastic domain walls are 2D topological defects with thicknesses approaching ...
The influence of flexoelectric coupling on the internal structure of neutral domain walls in the tet...
The 180⁰ ferroelectric domain walls (FDWs) have long been regarded as purely Ising type in ferroelec...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Macroscopic descriptions of ferroelectrics have an obvious appeal in terms of efficiency and physica...
In this dissertation, we try to address some of the questions which arise while studying flexoelectr...
Ferroelastic domains generate polarity near domain walls via the flexoelectric effect. Applied elect...
Flexoelectric coefficient is a fourth-rank tensor arising from the coupling between strain gradient ...
peer reviewedFerroelectric and ferroelastic domain walls are 2D topological defects with thicknesses...
The internal structure of neutral 180 degrees domain walls in perovskite-type ferroelectrics is stud...
The authors use the PQEq force field based on quantum mechanics studies to provide a first-principle...
Weak piezoelectricity, compared with electrostriction, occurs in twinned ferroelastic materials even...
The structure and electronic phenomena at the 180-degree domain wall in the rhombohedral phase of Ba...
Ferroelectric and ferroelastic domain walls are 2D topological defects with thicknesses approaching ...
The influence of flexoelectric coupling on the internal structure of neutral domain walls in the tet...
The 180⁰ ferroelectric domain walls (FDWs) have long been regarded as purely Ising type in ferroelec...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Flexoelectricity describes the linear coupling between the electric polarization and the mechanical ...
Macroscopic descriptions of ferroelectrics have an obvious appeal in terms of efficiency and physica...
In this dissertation, we try to address some of the questions which arise while studying flexoelectr...
Ferroelastic domains generate polarity near domain walls via the flexoelectric effect. Applied elect...
Flexoelectric coefficient is a fourth-rank tensor arising from the coupling between strain gradient ...
peer reviewedFerroelectric and ferroelastic domain walls are 2D topological defects with thicknesses...
The internal structure of neutral 180 degrees domain walls in perovskite-type ferroelectrics is stud...
The authors use the PQEq force field based on quantum mechanics studies to provide a first-principle...
Weak piezoelectricity, compared with electrostriction, occurs in twinned ferroelastic materials even...
The structure and electronic phenomena at the 180-degree domain wall in the rhombohedral phase of Ba...
Ferroelectric and ferroelastic domain walls are 2D topological defects with thicknesses approaching ...