Inconsistencies of the magnetostatic approximation in the description of a bi-component magnonic slab

•We show a strict analysis of the mathematical formulation for spin wave propagation.•Our results include waves traveling in all possible directions.•Magnetostatic approximation for bi-component magnonic crystals shows inconsistencies.•The application of the Walker’s equation in bi-component structu...

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Veröffentlicht in:	Journal of magnetism and magnetic materials 2017-09, Vol.438, p.27-34
Hauptverfasser:	Lazcano, Z., Ordóñez-Romero, C.L., Monsivais, G.
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Sprache:	eng
Schlagworte:	Approximation Boundary conditions Ferromagnetism Magnetic properties Magnons Studies Wave propagation
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container_title	Journal of magnetism and magnetic materials
container_volume	438
creator	Lazcano, Z. Ordóñez-Romero, C.L. Monsivais, G.
description	•We show a strict analysis of the mathematical formulation for spin wave propagation.•Our results include waves traveling in all possible directions.•Magnetostatic approximation for bi-component magnonic crystals shows inconsistencies.•The application of the Walker’s equation in bi-component structures is not valid. A complete theoretical analysis of inconsistencies of the magnetostatic model when applied to describe the propagation of spin waves through a bi-component system is presented. The standard magnetostatic theory, widely used to study propagation in a single homogenous magnetic media, has been used incorrectly in some recent papers to describe the spin wave propagation in bi-component systems. Our results demonstrate, in fact, that the application of the standard magnetostatic theory applied to this kind of system leads exclusively to a trivial solution. We discuss the boundary conditions to be fulfilled when two ferromagnetic media with different magnetic properties are coupled, as occurs at each interface of a bi-component magnonic crystal.
doi_str_mv	10.1016/j.jmmm.2017.04.051
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A complete theoretical analysis of inconsistencies of the magnetostatic model when applied to describe the propagation of spin waves through a bi-component system is presented. The standard magnetostatic theory, widely used to study propagation in a single homogenous magnetic media, has been used incorrectly in some recent papers to describe the spin wave propagation in bi-component systems. Our results demonstrate, in fact, that the application of the standard magnetostatic theory applied to this kind of system leads exclusively to a trivial solution. 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A complete theoretical analysis of inconsistencies of the magnetostatic model when applied to describe the propagation of spin waves through a bi-component system is presented. The standard magnetostatic theory, widely used to study propagation in a single homogenous magnetic media, has been used incorrectly in some recent papers to describe the spin wave propagation in bi-component systems. Our results demonstrate, in fact, that the application of the standard magnetostatic theory applied to this kind of system leads exclusively to a trivial solution. 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subjects	Approximation Boundary conditions Ferromagnetism Magnetic properties Magnons Studies Wave propagation
title	Inconsistencies of the magnetostatic approximation in the description of a bi-component magnonic slab
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