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Elastic scattering of twisted electrons by CO2 molecules at high energies
arXiv
Authors: Raul Sheldon Pinto, Rakesh Choubisa
Year
2024
Paper ID
64896
Status
Preprint
Abstract Read
~2 min
Abstract Words
142
Citations
N/A
Abstract
Elastic scattering of a twisted (Bessel) electron beam by CO2 molecules is studied theoretically at high energies. The molecule's structure is optimized using coupled cluster theory and density functional theory with correlation-consistent and Pople basis sets. Coulomb potentials are used in the static approximation. The differential and total scattering cross-sections are computed in the first Born approximation. All cross-sections are orientation-averaged using a passive rotational averaging technique. The scattering is studied by the impact of the twisted beam with topological charges in the range ml = 1 and ml = 20. The cross sections are, in addition, averaged over the target's impact parameters, which accounts for the cross sections of a large distribution of CO2 molecules. Finally, the molecule's total cross-section by plane waves and twisted beams is reported. The proposed methodology can be applied to study any polyatomic molecule, regardless of its structure.
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- Elastic scattering of a twisted (Bessel) electron beam by CO2 molecules is studied theoretically at high energies.
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