Temperature evolution of magnetic properties for (Cu/Co)60/Fe multilayer

Abstract In order to investigate the magnetic properties by ferromagnetic resonance (FMR) techniques, (Cu/Co) 60 /Fe multilayer on Si(001) substrate has been prepared by conventional sputtering. Evolution of the FMR spectra with temperature, resonance field, and magnetization curve has been calculated using the Landau–Lifshitz equation of motion for magnetization with the Bloch–Bloembergen type damping term. An almost linear evolution of frequency of resonance field has been shown for x-, k- and q-band spectra. By the analysis of the resonance field–frequency relation, the effect of the internal field is refined and thus the spectroscopic g -value and internal field were calculated. The magnetostatic signal originated from the magnetostatic anisotropy energy has been determined to be opposed by the decreasing exchange and dipolar energies.