Sideways dynamics of ferroelectric domain walls

The sohtonic mechanism for the protonic transfer is used to calculate a mobility of domain walls in hydrogen-bonded ferroelectrics. A one-dimensional model is considered. It is assumed that the sequence of proton jumps in doubleminimum wells of hydrogen bonds brings about a domain wall motion. Calcu

We consider a Dynamic Superlattice as a periodic structure formed by an acoustic or electromagnetic wave passing through a gapless semiconductor. Properties similar to those of Static Supersymmetric Superlattices have been found for the electronic spectrum of Dynamic Superlattices. The spectrum of D

A thermodynamic approach is used to derive the driving force on a domain wall in a piezoelectric material. Using 2D finite element simulations, the influence of different kinds of defects on the kinetics of a domain wall in ferroelectricferroelastic gadolinium molybdate, Gd 2 ðMoO 4 Þ 3 (GMO), is st

Hysteresis loops in KH 2 PO 4 (KDP) and its ferroelectric (FE) isomorphs disappear some 60 K below T c . This disappearance may result from an order-disorder transition of the domain wall. The lowest energy wall consists of a single layer of nonpolar H 2 PO 4 groups of Slater energy 1 0 . Including