An ab-initio calculation of magnetic resonant x-ray scattering spectra in NiO

Abstract

We investigate the magnetic resonant x-ray scattering spectra around the K edge of Ni in antiferromagnetic NiO using an ab-initio band-structure calculation based on the density-functional theory. By taking account of orbital polarization through the spin-orbit interaction, we reproduce well the spectra obtained experimentally, thus demonstrating the usefulness of the ab-initio calculation. It is shown that the main-edge peak, which mainly comes from the dipolar (1s 4p) transition, is a direct reflection of the orbital polarization of the 4p states. It is clarified that the 4p orbital polarization is mainly induced from the spin polarization on the 4p states by the spin-orbit interaction. The 3d orbital polarization at neighboring Ni sites gives rise to only a minor contribution to the 4p orbital polarization through a p-d mixing. It is also shown that the pre-edge peak, which mainly originates from the quadrupolar (1s 3d) transition, is a direct reflection of the orbital polarization of the unoccupied 3d states. It shows a Fano-type antiresonant dip due to interference with the nonresonant contribution, in agreement with the experimental result.

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