Order-Disorder Transformation in FePt Nanoparticles Studied by Ferromagnetic Resonance

J. M. VARGAS; R. D. ZYSLER; A. BUTERA

San Carlos de Bariloche

Conferencia; 13th International Conference on Solid Films and Surfaces; 2006

We have investigated the ferromagnetic resonance (FMR) response of as-made and temperature annealed FePt magnetic nanoparticles. The as-made nanoparticles, which have been fabricated by a chemical route, crystallize in the low magnetic anisotropy FCC phase and have a diameter in the range of 2-4 nm. The annealing of the particles at high temperatures (TA = 550, 650 and 750 oC) in an inert Ar atmosphere produces a partial transformation to the high magnetocrystalline anisotropy L10 phase, with a significant increase in particle size and size distribution. FMR measurements at X-band (9.5 GHz) and Q-band (34 GHz) show a single relatively narrow line for the as-synthesized particles and a structure of two superimposed lines for the three annealed samples. The origin of this line shape has been attributed to the presence of the disordered FCC phase. Assuming that the system consists of a collection of identical particles with a random distribution of easy axes, we have been able to estimate a mean value for the magnetic anisotropy constant of the particles in the FCC phase, K~2?106 erg/cm3. The measured line shape in the annealed samples can be explained if we consider that the magnetic anisotropy of the particles has a gaussian distribution with a relatively broad width.