We describe a new method to calculate the electric energy that a polarized material is liable to supply, to any sort of load, during a phase transition. This method can also be used to improve the way of polarization and to compare different energy storage materials
This paper describes computation of the influence of a steady current element on the current respons...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...
A micro-electromechanical constitutive model for ferroelectric polycrystals is introduced and applie...
We derived thermodynamically from first principles the free energy functional of a ferroelectric und...
Ferroelectric materials have established themselves as indispensable in key applications such as pie...
ABSTRACT: This article addresses the development of a homogenized energy model which characterizes t...
The aim of the current work is to develop a novel energy harvesting method by using ferroelectric/fe...
Ferroelectric materials possess spontaneous polarization pointing from negative to positive bound su...
In this Chapter we review the physical basis of the modern theory of polarization, emphasizing how t...
Ferroelectric materials possess a spontaneous polarization and actively respond to external mechanic...
O comportamento da polarização elétrica espontânea em função da temperatura é estudado para duas amo...
Since the discovery of Rochelle salt a century ago, ferroelectric materials have been investigated e...
Depolarization in ferroelectric materials has been studied since the 1970s, albeit quasi-statically....
This paper addresses the development of homogenized energy models which characterize the fer-roelast...
The polarization switching properties of ferroelectric materials have been extensively studied, both...
This paper describes computation of the influence of a steady current element on the current respons...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...
A micro-electromechanical constitutive model for ferroelectric polycrystals is introduced and applie...
We derived thermodynamically from first principles the free energy functional of a ferroelectric und...
Ferroelectric materials have established themselves as indispensable in key applications such as pie...
ABSTRACT: This article addresses the development of a homogenized energy model which characterizes t...
The aim of the current work is to develop a novel energy harvesting method by using ferroelectric/fe...
Ferroelectric materials possess spontaneous polarization pointing from negative to positive bound su...
In this Chapter we review the physical basis of the modern theory of polarization, emphasizing how t...
Ferroelectric materials possess a spontaneous polarization and actively respond to external mechanic...
O comportamento da polarização elétrica espontânea em função da temperatura é estudado para duas amo...
Since the discovery of Rochelle salt a century ago, ferroelectric materials have been investigated e...
Depolarization in ferroelectric materials has been studied since the 1970s, albeit quasi-statically....
This paper addresses the development of homogenized energy models which characterize the fer-roelast...
The polarization switching properties of ferroelectric materials have been extensively studied, both...
This paper describes computation of the influence of a steady current element on the current respons...
Polarization switching in a ferroelectric subjected to an electric field or a stress field is simula...
A micro-electromechanical constitutive model for ferroelectric polycrystals is introduced and applie...
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