Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy

Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy

A direct and systematic investigation of the magnetization dynamics in individual circular Ni80Fe20 disk of diameter (D) in the range from 300 nm to 1 μm measured using micro-focused Brillouin Light Scattering (μ-BLS) spectroscopy is presented. At high field, when the disks are in a single domain st...

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Main Authors: G. Shimon, A. O. Adeyeye
Format: Article
Language:English
Published: AIP Publishing LLC 2015-09-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4930836
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spelling doaj-37286a824c7647d6887cfd47caf86ebd2020-11-24T23:33:50ZengAIP Publishing LLCAIP Advances2158-32262015-09-0159097124097124-810.1063/1.4930836024509ADVSize-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopyG. Shimon0A. O. Adeyeye1Information Storage Materials Laboratory, Department of Electrical and Computer Engineering, 4 Engineering Drive 3, National University of Singapore, Singapore 117576, SingaporeInformation Storage Materials Laboratory, Department of Electrical and Computer Engineering, 4 Engineering Drive 3, National University of Singapore, Singapore 117576, SingaporeA direct and systematic investigation of the magnetization dynamics in individual circular Ni80Fe20 disk of diameter (D) in the range from 300 nm to 1 μm measured using micro-focused Brillouin Light Scattering (μ-BLS) spectroscopy is presented. At high field, when the disks are in a single domain state, the resonance frequency of the uniform center mode is observed to reduce with reducing disk’s diameter. For D = 300 nm, additional edge and end-domains resonant modes are observed due to size effects. At low field, when the disks are in a vortex state, a systematic increase of resonant frequency of magnetostatic modes in a vortex state with the square root of the disks’ aspect ratio (thickness divided by radius) is observed. Such dependence diminishes for disks with larger aspect ratio due to an increasing exchange energy contribution. Micromagnetic simulations are in excellent agreement with the experiments.http://dx.doi.org/10.1063/1.4930836
collection DOAJ
language English
format Article
sources DOAJ
author G. Shimon
A. O. Adeyeye
spellingShingle G. Shimon
A. O. Adeyeye
Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
AIP Advances
author_facet G. Shimon
A. O. Adeyeye
author_sort G. Shimon
title Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
title_short Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
title_full Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
title_fullStr Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
title_full_unstemmed Size-dependent magnetization dynamics in individual Ni80Fe20 disk using micro-focused Brillouin Light Scattering spectroscopy
title_sort size-dependent magnetization dynamics in individual ni80fe20 disk using micro-focused brillouin light scattering spectroscopy
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2015-09-01
description A direct and systematic investigation of the magnetization dynamics in individual circular Ni80Fe20 disk of diameter (D) in the range from 300 nm to 1 μm measured using micro-focused Brillouin Light Scattering (μ-BLS) spectroscopy is presented. At high field, when the disks are in a single domain state, the resonance frequency of the uniform center mode is observed to reduce with reducing disk’s diameter. For D = 300 nm, additional edge and end-domains resonant modes are observed due to size effects. At low field, when the disks are in a vortex state, a systematic increase of resonant frequency of magnetostatic modes in a vortex state with the square root of the disks’ aspect ratio (thickness divided by radius) is observed. Such dependence diminishes for disks with larger aspect ratio due to an increasing exchange energy contribution. Micromagnetic simulations are in excellent agreement with the experiments.
url http://dx.doi.org/10.1063/1.4930836
work_keys_str_mv AT gshimon sizedependentmagnetizationdynamicsinindividualni80fe20diskusingmicrofocusedbrillouinlightscatteringspectroscopy
AT aoadeyeye sizedependentmagnetizationdynamicsinindividualni80fe20diskusingmicrofocusedbrillouinlightscatteringspectroscopy
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