2009
DOI: 10.1088/0953-8984/21/12/124202
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Magnetic particle hyperthermia: Néel relaxation in magnetic nanoparticles under circularly polarized field

Abstract: The mechanism of magnetization reversal in single-domain ferromagnetic particles is of interest in many applications, in most of which losses must be minimized. In cancer therapy by hyperthermia the opposite requirement prevails: the specific loss power should be maximized. Of the mechanisms of dissipation, here we study the effect of Néel relaxation on magnetic nanoparticles unable to move or rotate and compare the losses in linearly and circularly polarized fields. We present exact analytical solutions of th… Show more

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Cited by 31 publications
(61 citation statements)
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“…(1)] has the simplest form: a time-independent magnetization vector [10][11][12]. The transformation is done by an appropriate rotation [10]:…”
Section: Circularly Polarized Applied Fieldmentioning
confidence: 99%
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“…(1)] has the simplest form: a time-independent magnetization vector [10][11][12]. The transformation is done by an appropriate rotation [10]:…”
Section: Circularly Polarized Applied Fieldmentioning
confidence: 99%
“…(25) in Ref. [10]] (in the case of the repulsive fixed point u x0 and u z0 having been multiplied by −1). The attractive fixed point of the LLG equation in the rotating frame corresponds to the stable steady-state solution obtained in the laboratory frame [Eq.…”
Section: A Isotropic Casementioning
confidence: 99%
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“…21,22 Because the heat is generated from the MNP core, the energy should be directly transferred to the water and other molecules that exist locally on the MNP surface, resulting in the rapid and efficient heating of the target molecule. In this study, we used an AMF to enhance DNA release from the PAMAM-SpMNP surface.…”
Section: Dna Binding To and Release From Pamam-spmnpsmentioning
confidence: 99%