Superparamagnetic Relaxation in Interacting Magnetic Particle Assemblies

Abstract

Magnetic dipolar interaction between nanoparticles affects the relaxation time and consequently the superparamagnetic behavior of the assembly. Understanding how the relaxation mechanisms depend on the interaction is important due to the wide use of these materials in the different fields of nanotechnology. In this work we have investigated the effect of dipolar interaction on superparamagnetic behavior of magnetic particle assemblies. The interaction was considered through an interaction magnetic field and was calculated using the mean field model. The relaxation time of an interacting system can be written in two equivalent ways, the first as a perturbation in the energy barrier of the isolated particle and the second as a perturbation in the thermal energy. With this equivalence, it was possible to determine that the shift in the blocking temperature is associated with the type of interaction that predominates in the assembly. Blocking temperature increases (decreases) if ferromagnetic (antiferromagnetic) interaction is the dominant interaction.