1.
Photoexcitation processes in atomsAlojz Kodre,
Iztok Arčon,
Jana Padežnik Gomilšek, 2021, independent scientific component part or a chapter in a monograph
Abstract: Photoelectric absorption is characterized by a smooth power-law decrease of the
cross section with photon energy. Absorption edges reveal rich structure, which
continues into the high-energy side. The quasiperiodic signal, superposed onto
the smooth basis, due to scattering of the photoelectron on the neighbours of the
target atom provides the basis for the structural (XAFS) analysis of the material.
Irregular tiny resonances and edges that appear over the same general range as
XAFS are recognized as intra-atomic effects: multielectron excitations (MEE)
owing to correlated motion in the electronic cloud. The systematic study of MEE
began on noble gases and metallic vapours, both of which are gases of free
atoms. With some extremely strong MEE, mostly coexcitations of the subvalence
d and f electrons, the structural XAFS analysis may be compromised;
hence, there is a need to independently determine the MEE signal, the atomic
absorption background (AAB) for the analyzed element, and remove it prior to
analysis. In view of the scarcity of elements which can practically be prepared in
a free-atom gas state, several approaches to approximate the AAB have been
developed: analysis of disordered compounds, where the weak and simple
XAFS signal can be modelled and removed, and correlation analysis of the
absorption spectra of several independent samples, where the AAB is extracted
in an iterative procedure.
Keywords: photoexcitation, XAFS, multielectron excitations, atomic
absorption background
Published in RUNG: 15.12.2021; Views: 1654; Downloads: 0
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