FEM Optimization of Energy Density in Tumor Hyperthermia Using Time-Dependent Magnetic Nanoparticle Power Dissipation

: 2014

یو آر آی: https://libsearch.um.ac.ir:443/fum/handle/fum/1136226

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FEM Optimization of Energy Density in Tumor Hyperthermia Using Time-Dependent Magnetic Nanoparticle Power Dissipation

contributor author	Koch, Caleb Maxwel
contributor author	Winfrey, A.L.
date accessioned	2020-03-13T00:09:05Z
date available	2020-03-13T00:09:05Z
date issued	2014
identifier issn	0018-9464
identifier other	6835180.pdf
identifier uri	https://libsearch.um.ac.ir:443/fum/handle/fum/1136226
format	general
language	English
publisher	IEEE
title	FEM Optimization of Energy Density in Tumor Hyperthermia Using Time-Dependent Magnetic Nanoparticle Power Dissipation
type	Journal Paper
contenttype	Metadata Only
identifier padid	8317876
subject keywords	finite element analysis
subject keywords	hyperthermia
subject keywords	magnetic particles
subject keywords	nanomagnetics
subject keywords	nanomedicine
subject keywords	nanoparticles
subject keywords	patient treatment
subject keywords	tumours
subject keywords	energy concentrations
subject keywords	energy density
subject keywords	energy input
subject keywords	finite element model optimization
subject keywords	finite size
subject keywords	hyperthermia selectivity
subject keywords	maximum power dissipation duration
subject keywords	maximum power dissipation location
subject keywords	spatial location
subject keywords	temperature gradient
subject keywords	time-dependent magnetic nanoparticle power dissipation
subject keywords	treatment time scheme
subject keywords	tumor hyperthermia
subject keywords	Finite element analysis
subject keywords	Heatin
identifier doi	10.1109/TMAG.2014.2331031
journal title	Magnetics, IEEE Transactions on
journal volume	50
journal issue	10
filesize	1071280
citations	0

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