Strong influence of configuration interactions on the orientation and alignment dichroism in the3pphotoelectron spectra of free laser-polarized Fe atoms

Abstract

The $3p$ photoelectron spectra of oriented and aligned free Fe atoms are presented. The atomic polarization was achieved by optical pumping. For this purpose single-mode ultraviolet continuous wave laser radiation was produced by second harmonic generation in an external ring resonator. The ground state Fe $3{d}^{6}4{s}^{2}$ $^{5}D_{4}$ was oriented by circularly polarized laser radiation and aligned by linearly polarized laser radiation. Switching from right handed to left handed circularly polarized laser radiation or by changing the polarization angle of the linearly polarized laser radiation by 90\ifmmode^\circ\else\textdegree\fi{} allowed for the measurement of the orientation or the alignment dichroism in the Fe $3p$ photoelectron spectra excited by linearly polarized synchrotron radiation. The spectra are compared to the predictions of the single configuration $LS$-coupling model and the results of single and multiconfiguration calculations. Strong configuration interactions in the final core-hole states manifest themselves in marked deviations from the characteristic patterns. The comparison of the spectra of the free Fe atoms with spectra of thin magnetized Fe films reveals similarities but also marked differences between the dichroism curves of free and bound Fe atoms. The common atomic origin of the dichroism of free and bound Fe atoms is discussed; changes in the intra-atomic electron interactions as well as changes in valence electronic configuration when going from free to bound Fe atoms are addressed.