Energy dependence of interference phenomena in the forward-scattering regime of photoelectron diffraction

X-ray photoelectron diffraction is a powerful spectroscopic technique in the direct legacy of C.S. Fadley that combines high sensitivity to the arrangement of atoms in crystals and element specificity providing unique fingerprints of selected atomic sites in matter. When used with kinetic energies b...

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Bibliographic Details
Published in:Journal of electron spectroscopy and related phenomena 2022-04, Vol.256, p.147176, Article 147176
Main Authors: Tricot, S., Jaouen, T., Sébilleau, D., Schieffer, P.
Format: Article
Language:English
Subjects:
Condensed Matter
Energy-scan
Forward scattering
High-order interference
Materials Science
Physics
X-ray photoelectron diffraction
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Summary:X-ray photoelectron diffraction is a powerful spectroscopic technique in the direct legacy of C.S. Fadley that combines high sensitivity to the arrangement of atoms in crystals and element specificity providing unique fingerprints of selected atomic sites in matter. When used with kinetic energies between 500 eV and 1500 eV, its interpretation and description is based on the fact that the atomic scattering factors are strongly forward-peaked in such a way that low-angles scattering and backscattering events are respectively dominant and almost irrelevant in the photoemission process. In this paper we aim to demonstrate with the help of multiple-scattering simulations that energy scans of high-energy (500–1500 eV) forward-scattering photoelectron diffraction can provide valuable structural and chemical information about thin epitaxial films or stacking of two-dimensional materials. •Simulation of XPD for atomic structures using multiple-scattering methods.•Interference phenomena in forward scattering energy scans.•Probes atomic structures changes down to the sub-Å length scale.•Sensitivity of normal-emission FS energy-scans to lattice deformations.•C.S. Fadley legacy.
ISSN:0368-2048
1873-2526
DOI:10.1016/j.elspec.2022.147176