Positron elastic scattering by a semifilled-shell atom
Abstract
We theoretically study the positron elastic scattering by an atom with a multielectron semifilled subshell in its structure. The positron scattering by the Mn(, atom with a semifilled subshell ( scattering) is chosen as a case study. We account for both the electron correlation and the formation of a virtual positronium (Ps) in the intermediate states of the system. Electron correlation is taken into account in the framework of the self-energy part of the scattering positron Green function generalized for the application to semifilled-shell atoms. The influence of the virtual Ps formation on scattering is taken into account by the reduction of the energy of the virtual \textit{positron plus atomic-excited-configuration} states by the Ps-binding energy, to a reasonable approximation. We unravel the importance and specificity of the influence of both the virtual Ps and electron correlation on elastic scattering. We demonstrate spectacular differences between the electron and positron scattering processes.
Cite
@article{arxiv.2106.03788,
title = {Positron elastic scattering by a semifilled-shell atom},
author = {M. Ya. Amusia and V. K. Dolmatov and L. V. Chernysheva},
journal= {arXiv preprint arXiv:2106.03788},
year = {2021}
}
Comments
9 pages, 8 figures