To the effect of interparticle interaction on dynamic remagnetization of ferromagnetic nanoparticles

A. Yu. Zubarev, L. Yu. Iskakova
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Abstract

The paper deals with theoretical study of effect of interparticle interaction on the complex magnetic susceptibility and the rate of magnetic energy dissipation in a system of single-domain ferromagnetic particles, immobilized in a non-magnetic media. A real prototype of this model can be a biological tissue with embedded magnetic nanoparticles for hyperthermia therapy of tumor (cancer) diseases. Based on mathematically regular methods of statistical physics, we have shown that, depending on frequency of the applied field, the interparticle interaction can either increase or decrease the energy dissipation, and, therefore, the heat production in the system. We hope that the obtained results can help to explain qualitative contradictions between conclusions of various experimental and theoretical studies of influence of the interparticle interactions on the thermal effect in tissues with embedded magnetic particles.

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颗粒间相互作用对铁磁性纳米颗粒动态再磁化的影响
本文涉及粒子间相互作用对固定在非磁性介质中的单域铁磁粒子系统的复合磁感应强度和磁能耗散率影响的理论研究。该模型的真实原型可以是嵌入磁性纳米粒子的生物组织,用于肿瘤(癌症)疾病的热疗。基于统计物理学的数学规律方法,我们已经证明,根据外加磁场的频率,粒子间的相互作用可以增加或减少能量耗散,从而增加或减少系统中的热量产生。我们希望所获得的结果有助于解释关于粒子间相互作用对嵌入磁性粒子的组织热效应影响的各种实验和理论研究结论之间的定性矛盾。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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