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Coupled phase field simulations of ferroelectric and ferromagnetic layers in multiferroic heterostructures

Dornisch, Wolfgang ; Schrade, David ; Xu, Bai-Xiang ; Keip, Marc-André ; Müller, Ralf (2019)
Coupled phase field simulations of ferroelectric and ferromagnetic layers in multiferroic heterostructures.
In: Archive of Applied Mechanics, 89 (6)
doi: 10.1007/s00419-018-1480-9
Artikel, Bibliographie

Kurzbeschreibung (Abstract)

The combination of materials with either pronounced ferroelectric or ferromagnetic effect characterizes multiferroic heterostructures, whereby the different materials can be arranged in layers, columns or inclusions. The magnetization can be controlled by the application of electrical fields through a purely mechanical coupling at the interfaces between the different materials. Thus, a magneto-electric coupling effect is obtained. Within a continuum mechanics formulation, a phase field is used to describe the polarization and the magnetization in the ferroelectric and ferromagnetic layers, respectively. The coupling between polarization/magnetization and strains within the layers, in combination with the mechanical coupling at the sharp layer interfaces, yields the magneto-electric coupling within the heterostructure. The continuum formulations for both layers are discretized in order to make the differential equations amenable to a numerical solution with the finite element method. A state-of-the-art approach is used for the ferroelectric layer. The material behavior of the ferromagnetic layer is described by a continuum formulation from the literature, which is discretized using a newly proposed approach for the consistent interpolation of the magnetization vector. Four numerical examples are presented which show the applicability of the newly proposed approach for the ferromagnetic layer as well as the possibility to simulate magneto-electric coupling in multiferroic heterostructures.

Typ des Eintrags: Artikel
Erschienen: 2019
Autor(en): Dornisch, Wolfgang ; Schrade, David ; Xu, Bai-Xiang ; Keip, Marc-André ; Müller, Ralf
Art des Eintrags: Bibliographie
Titel: Coupled phase field simulations of ferroelectric and ferromagnetic layers in multiferroic heterostructures
Sprache: Englisch
Publikationsjahr: Juni 2019
Titel der Zeitschrift, Zeitung oder Schriftenreihe: Archive of Applied Mechanics
Jahrgang/Volume einer Zeitschrift: 89
(Heft-)Nummer: 6
DOI: 10.1007/s00419-018-1480-9
URL / URN: http://link.springer.com/10.1007/s00419-018-1480-9
Kurzbeschreibung (Abstract):

The combination of materials with either pronounced ferroelectric or ferromagnetic effect characterizes multiferroic heterostructures, whereby the different materials can be arranged in layers, columns or inclusions. The magnetization can be controlled by the application of electrical fields through a purely mechanical coupling at the interfaces between the different materials. Thus, a magneto-electric coupling effect is obtained. Within a continuum mechanics formulation, a phase field is used to describe the polarization and the magnetization in the ferroelectric and ferromagnetic layers, respectively. The coupling between polarization/magnetization and strains within the layers, in combination with the mechanical coupling at the sharp layer interfaces, yields the magneto-electric coupling within the heterostructure. The continuum formulations for both layers are discretized in order to make the differential equations amenable to a numerical solution with the finite element method. A state-of-the-art approach is used for the ferroelectric layer. The material behavior of the ferromagnetic layer is described by a continuum formulation from the literature, which is discretized using a newly proposed approach for the consistent interpolation of the magnetization vector. Four numerical examples are presented which show the applicability of the newly proposed approach for the ferromagnetic layer as well as the possibility to simulate magneto-electric coupling in multiferroic heterostructures.

Freie Schlagworte: Multiferroic heterostructure, Phase field method, Ferroelectric material, Ferromagnetic material, Finite element method, Rotation interpolation
Fachbereich(e)/-gebiet(e): 11 Fachbereich Material- und Geowissenschaften
11 Fachbereich Material- und Geowissenschaften > Materialwissenschaft
11 Fachbereich Material- und Geowissenschaften > Materialwissenschaft > Fachgebiet Mechanik Funktionaler Materialien
13 Fachbereich Bau- und Umweltingenieurwissenschaften
13 Fachbereich Bau- und Umweltingenieurwissenschaften > Fachgebiete der Mechanik
13 Fachbereich Bau- und Umweltingenieurwissenschaften > Fachgebiete der Mechanik > Fachgebiet Kontinuumsmechanik
Hinterlegungsdatum: 03 Mai 2022 06:06
Letzte Änderung: 26 Jan 2024 09:21
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