Theoretical study of magnetic properties and x-ray magnetic circular dichroism of the ordered Fe0.5Pd0.5 alloy

A detailed theoretical study of magnetic and structural properties of Fe0.5 Pd0.5 ordered face-centered tetragonal (fct) alloy, using both the local sp in density approximation (LSDA) and the generalized gradient approxi- matio n (GGA), is presented. The total energy surface as a function of the lattic e parameters a and c shows a long valley where stable structures may exist. Our calculation using the GGA predicts a magnetic phase transition from pe rpendicular to parallel magnetization as a function of the lattice paramete r, whereas LSDA favors always the [001] magnetization axis for all values o f the lattice parameters. The spin and orbital magnetic moments and x-ray m agnetic circular dichroism spectra are calculated for the easy [001] and th e hard [100] magnetization axis and for three sets of experimental lattice parameters, and are compared to the available experimental results on these films. A supercell calculation for a 4 monolayer Fe0.5Pd0.5 thin film prod uced similar results. While the spin magnetic moments are in fair agreement with experiment, the orbital magnetic moments are considerably underestima ted. To improve the agreement with experiment we included an atomic orbital polarization term; however, the computed orbital moments scarcely changed.