Calculation of the spin polarization of the Cu3 p photoelectron diffraction by linearly polarized light

Abstract

A theoretical study of the spin polarization in angular and spin resolved core-level photoelectron spectra of nonmagnetic materials has been performed for Cu3 3 p in Cu(001) excited by linearly polarized light. The dependence of the spin polarization on the energy and emission direction of the photoelectrons has been considered taking into account photoelectron diffraction effects. The final state scattering of the photoelectrons causes modulations in the spin up and spin down intensities and in the related spin polarization. The calculated results are in agreement to available experimental data.