Coupling of ferromagnetic nanoparticles through dipolar interactions

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• 作者：A. Weizenmann ; M. Santos ; W. Figueiredo ; ^{wagner@fisica.ufsc.br}
• 关键词：Heisenberg model ; Dipolar interactions ; Magnetic nanoparticles
• 刊名：Physics Letters A
• 出版年：2012
• 出版时间：2 April, 2012
• 年：2012
• 卷：376
• 期：18
• 页码：1535-1539
• 全文大小：301 K

文摘

We consider two ferromagnetic nanoparticles coupled via long-range dipolar interactions. We model each particle by a three-dimensional array of classical spin vectors, with a central spin surrounded by a variable number of shells. Within each particle only ferromagnetic coupling between nearest neighbor spins is considered. The interaction between particles is of the dipolar type and the magnetic properties of the system is studied as a function of temperature and distance between the centers of the particles. We perform Monte Carlo simulations for particles with different number of shells, and the magnetic properties are calculated via two routes concerning the dipolar contribution: one assuming a mean-field like coupling between effective magnetic moments at the center of the particles, and other one, where we take into account interactions among all the pairs of spins, one in each particle. We show that the dipolar coupling between the particles enhances the critical temperature of the system relative to the case in which the particles are very far apart. The dipolar energy between the particles is smaller when the assumption of effective magnetic moment of the particles is used in the calculations.