Global density-dependent $\alpha$-nucleon interaction for $\alpha$-nucleus elastic scattering
Abstract
We provide a global density-dependent He-nucleon (DD-) interaction to construct the -nucleus optical model potential (OMP) in a wide range of incident energies. The global parametrization for the DD- interaction is obtained based on the proton-He OMP which reproduces the elastic scattering cross-section data very well in the incident energies of 12.04--500 MeV per nucleon. We derive the -nucleus potential by a folding procedure with the point-nucleon density obtained by a microscopic mean-field model using the present DD- interaction. The density dependence of the DD- interaction is fixed phenomenologically to reproduce the -nucleus elastic scattering cross-section data by the O, Ca, Ni, Zr, and Pb targets at 10--342.5 MeV. We also show the total reaction cross sections, which are helpful in fixing one free parameter, the renormalization factor for the imaginary part of the -nucleus potential. Lastly, we show some examples, which clearly demonstrate the validity and power of the present DD- approach.
Cite
@article{arxiv.2312.03960,
title = {Global density-dependent $\alpha$-nucleon interaction for $\alpha$-nucleus elastic scattering},
author = {T. Furumoto and K. Tsubakihara and S. Ebata and W. Horiuchi},
journal= {arXiv preprint arXiv:2312.03960},
year = {2023}
}
Comments
20 pages, 11 figures