ABSTRACT Thermodynamic models formulated based on the Landau free-energy expansion are popular and well suited to studies involving properties of the ferro/para-electric transition, or near it. Indeed, the general nature of thermodynamics, from which the strength of the model is derived, allows a valid model to be constructed based on simple functional forms with parameters fitted to experiments, by passing the mechanistic complexity. Despite inaccuracy due to the neglect of fluctuations, this approach has been proven effective and powerful for recent research develop-ment of ferroelectrics in nanoscale. Efforts in some important works have recently faced much challenge, when free-energy contributions have to be incorporated to account for ...
A continuum thermodynamics framework is devised to model the evolution of ferroelectric domain struc...
ABSTRACT: This article addresses the development of a homogenized energy model which characterizes t...
AbstractThe one-dimensional free energy model for ferroelectric materials developed by Smith et al. ...
We derived thermodynamically from first principles the free energy functional of a ferroelectric und...
Modeling nano-scale ferroelectric superlattices using the Landau free-energy functional approach req...
International audienceThe free energy of barium titanate is computed around the Curie temperature as...
Ferroelectrics are an important class of materials that exhibit rich functional behavior and are bei...
During the past two decades, revolutionary breakthroughs have occurred in the understanding of ferro...
During the past two decades, revolutionary breakthroughs have occurred in the understanding of ferro...
Using a combination of numerical and analytical techniques, I present characterizations of ferroelec...
In this review, we propose a summary of the most recent advances in the first-principles study of fe...
We present a method based on combination of (a) constrained polarization molecular dynamics and (b) ...
International audienceThe thermodynamic description of a ferroelectric material is generally done us...
Going down to the limit of ultrathin films holds promise for a new generation of devices such as fer...
A discussion is presented of nano-scale ferroelectric devices. Nano-ribbons exhibit an “extra” relax...
A continuum thermodynamics framework is devised to model the evolution of ferroelectric domain struc...
ABSTRACT: This article addresses the development of a homogenized energy model which characterizes t...
AbstractThe one-dimensional free energy model for ferroelectric materials developed by Smith et al. ...
We derived thermodynamically from first principles the free energy functional of a ferroelectric und...
Modeling nano-scale ferroelectric superlattices using the Landau free-energy functional approach req...
International audienceThe free energy of barium titanate is computed around the Curie temperature as...
Ferroelectrics are an important class of materials that exhibit rich functional behavior and are bei...
During the past two decades, revolutionary breakthroughs have occurred in the understanding of ferro...
During the past two decades, revolutionary breakthroughs have occurred in the understanding of ferro...
Using a combination of numerical and analytical techniques, I present characterizations of ferroelec...
In this review, we propose a summary of the most recent advances in the first-principles study of fe...
We present a method based on combination of (a) constrained polarization molecular dynamics and (b) ...
International audienceThe thermodynamic description of a ferroelectric material is generally done us...
Going down to the limit of ultrathin films holds promise for a new generation of devices such as fer...
A discussion is presented of nano-scale ferroelectric devices. Nano-ribbons exhibit an “extra” relax...
A continuum thermodynamics framework is devised to model the evolution of ferroelectric domain struc...
ABSTRACT: This article addresses the development of a homogenized energy model which characterizes t...
AbstractThe one-dimensional free energy model for ferroelectric materials developed by Smith et al. ...