The magnetic particle in a box: Analytic and micromagnetic analysis of probe-localized spin wave modes

The dipole field from a probe magnet can be used to localize a discrete spectrum of standing spin wave modes in a continuous ferromagnetic thin film without lithographic modification to the film. Obtaining the resonance field for a localized mode is not trivial due to the effect of the confined and...

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Veröffentlicht in:	Journal of applied physics 2015-05, Vol.117 (17)
Hauptverfasser:	Adur, Rohan, Du, Chunhui, Manuilov, Sergei A., Wang, Hailong, Yang, Fengyuan, Pelekhov, Denis V., Hammel, P. Chris
Format:	Artikel
Sprache:	eng
Schlagworte:	ANALYTICAL SOLUTION BESSEL FUNCTIONS BOUNDARY CONDITIONS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COMPARATIVE EVALUATIONS DIPOLES FERROMAGNETIC MATERIALS FERROMAGNETISM MAGNETIZATION MAGNETS PARTICLES PRECESSION PROBES RESONANCE SPIN WAVES STANDING WAVES THIN FILMS
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container_issue	17
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container_title	Journal of applied physics
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creator	Adur, Rohan Du, Chunhui Manuilov, Sergei A. Wang, Hailong Yang, Fengyuan Pelekhov, Denis V. Hammel, P. Chris
description	The dipole field from a probe magnet can be used to localize a discrete spectrum of standing spin wave modes in a continuous ferromagnetic thin film without lithographic modification to the film. Obtaining the resonance field for a localized mode is not trivial due to the effect of the confined and inhomogeneous magnetization precession. We compare the results of micromagnetic and analytic methods to find the resonance field of localized modes in a ferromagnetic thin film, and investigate the accuracy of these methods by comparing with a numerical minimization technique that assumes Bessel function modes with pinned boundary conditions. We find that the micromagnetic technique, while computationally more intensive, reveals that the true magnetization profiles of localized modes are similar to Bessel functions with gradually decaying dynamic magnetization at the mode edges. We also find that an analytic solution, which is simple to implement and computationally much faster than other methods, accurately describes the resonance field of localized modes when exchange fields are negligible, and demonstrating the accessibility of localized mode analysis.
doi_str_mv	10.1063/1.4908156
format	Article
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We find that the micromagnetic technique, while computationally more intensive, reveals that the true magnetization profiles of localized modes are similar to Bessel functions with gradually decaying dynamic magnetization at the mode edges. 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Chris</creatorcontrib><title>The magnetic particle in a box: Analytic and micromagnetic analysis of probe-localized spin wave modes</title><title>Journal of applied physics</title><description>The dipole field from a probe magnet can be used to localize a discrete spectrum of standing spin wave modes in a continuous ferromagnetic thin film without lithographic modification to the film. Obtaining the resonance field for a localized mode is not trivial due to the effect of the confined and inhomogeneous magnetization precession. We compare the results of micromagnetic and analytic methods to find the resonance field of localized modes in a ferromagnetic thin film, and investigate the accuracy of these methods by comparing with a numerical minimization technique that assumes Bessel function modes with pinned boundary conditions. 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subjects	ANALYTICAL SOLUTION BESSEL FUNCTIONS BOUNDARY CONDITIONS CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COMPARATIVE EVALUATIONS DIPOLES FERROMAGNETIC MATERIALS FERROMAGNETISM MAGNETIZATION MAGNETS PARTICLES PRECESSION PROBES RESONANCE SPIN WAVES STANDING WAVES THIN FILMS
title	The magnetic particle in a box: Analytic and micromagnetic analysis of probe-localized spin wave modes
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