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要旨

We study by Langevin molecular dynamics simulations systematically the influence of polydispersity in the particle size, and subsequently in the dipole moment, on the physical properties of ferrofluids. The polydispersity is in a first approximation modeled by a bidisperse system that consists of small and large particles at different ratios of their volume fractions. In the first part of our investigations the total volume fraction of the system is fixed, and the volume fraction Φ_L of the large particles is varied. The initial susceptibility χ and magnetization curve of the systems show a strong dependence on the value of Φ_L. With the increase of Φ_L, the magnetization M of the system has a much faster increment at weak fields, and thus leads to a larger χ. We performed a cluster analysis that indicates that this is due to the aggregation of the large particles in the systems. The average size of these clusters increases with increasing Φ_L. In the second part of our investigations, we fixed the volume fraction of the large particles, and increased the volume fraction Φ_S of the small particles in order to study their influence on the chain formation of the large ones. We found that the average aggregate size formed by large particles decreases when Φ_S is increased, demonstrating a significant effect of the small particles on the structural properties of the system. A topological analysis of the structure reveals that the majority of the small particles remain nonaggregated. Only a small number of them are attracted to the ends of the chains formed by large particles.