DOI:
10.1103/PhysRevA.106.032813
IAA authors:
Schmalzried, A.;Luque, A.
Authors:
Schmalzried, A.;Luque, A.;Lehtinen, N.
Abstract:
A simple model is proposed to compute electron-diatomic molecule elastic differential cross sections at intermediate energies within the framework of an analytical local optical potential. In a spherical harmonic expansion of the molecular potential we treat the isotropic term with the partial-wave decomposition and apply the independent atom model (IAM) on all higher orders. This model is seen to properly converge to the IAM at high energies, while bringing significant improvement at lower energies. We compare the results with a well-tested program called ELSEPA, tailored for high-energy electron-atom scattering and address its further extension to molecules with the method proposed. The simplicity of the calculations and the encouraging agreement in shape with experimental data could promote attractiveness among plasma physics simulations in need of coherent and well-resolved differential cross sections.
URL:
https://ui.adsabs.harvard.edu/#abs/2022PhRvA.106c2813S/abstract