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Main Authors: Zélis, Pedro Mendoza, Actis, Daniel G., Basso, Giuliano A., Pasquevich, Gustavo A., Bruvera, Ignacio J.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.11641
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author Zélis, Pedro Mendoza
Actis, Daniel G.
Basso, Giuliano A.
Pasquevich, Gustavo A.
Bruvera, Ignacio J.
author_facet Zélis, Pedro Mendoza
Actis, Daniel G.
Basso, Giuliano A.
Pasquevich, Gustavo A.
Bruvera, Ignacio J.
contents In application as hyperthermia and nanowarming, power dissipation arises when the time-dependent magnetization $M(t)$ of an out-of-equilibrium system of nanoparticles lags behind the applied field $H(t)$. The key parameter governing this process is the relaxation time $τ$ of the system, which induces a phase shift $ϕ_n$ between $H(t)$ and every nth harmonic component of $M(t)$. In this work, we present an expression for $M(t)$ in terms of $τ$ and the equilibrium magnetization, valid for any magnetic system exhibiting odd equilibrium response. From this calculation, we obtain a method for determining the effective $τ$ of a MNPs sample directly from the experimental measurement of $M(t)$. Additionally, we demonstrate that the power dissipation (SAR: Specific Absorption Rate) of any magnetic sample under a sinusoidal field can be obtained from the first harmonic component of $M(t)$. As an illustrative application, we explore the variation of $τ$ for magnetic MNPs in aqueous suspension during the melting process of the matrix. In this case, the change in $τ$ can be understood as a result of the reorientation of the MNPs in the direction of the applied field as the matrix becomes liquid.
format Preprint
id arxiv_https___arxiv_org_abs_2405_11641
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Time depending magnetization of nanoparticles under radiofrequency fields: Experimental relaxation time in water for solid-liquid transition
Zélis, Pedro Mendoza
Actis, Daniel G.
Basso, Giuliano A.
Pasquevich, Gustavo A.
Bruvera, Ignacio J.
Mesoscale and Nanoscale Physics
In application as hyperthermia and nanowarming, power dissipation arises when the time-dependent magnetization $M(t)$ of an out-of-equilibrium system of nanoparticles lags behind the applied field $H(t)$. The key parameter governing this process is the relaxation time $τ$ of the system, which induces a phase shift $ϕ_n$ between $H(t)$ and every nth harmonic component of $M(t)$. In this work, we present an expression for $M(t)$ in terms of $τ$ and the equilibrium magnetization, valid for any magnetic system exhibiting odd equilibrium response. From this calculation, we obtain a method for determining the effective $τ$ of a MNPs sample directly from the experimental measurement of $M(t)$. Additionally, we demonstrate that the power dissipation (SAR: Specific Absorption Rate) of any magnetic sample under a sinusoidal field can be obtained from the first harmonic component of $M(t)$. As an illustrative application, we explore the variation of $τ$ for magnetic MNPs in aqueous suspension during the melting process of the matrix. In this case, the change in $τ$ can be understood as a result of the reorientation of the MNPs in the direction of the applied field as the matrix becomes liquid.
title Time depending magnetization of nanoparticles under radiofrequency fields: Experimental relaxation time in water for solid-liquid transition
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2405.11641