Phase Shift Analysis of Light Nucleon-Nucleus Elastic Scattering using Reference Potential Approach
Abstract
The neutron and proton scattering with either deuteron or stable alpha particle can be modeled as a two particle system. In this paper, using Morse function as reference potential, inverse potentials have been computationally constructed directly from scattering phase shifts (SPS) data for light nucleon-nucleus systems. The phase equation for various l-channels has been numerically solved using 5th order Runge-Kutta (RK-5) method in each iteration within the optimization procedure to obtain best model parameters of Morse function that minimize mean absolute percentage error (MAPE). The inverse potentials for S-wave of neutron-deuteron and proton-deuteron systems have been obtained with MAPE of 1.95 and 2.05% respectively. Those corresponding to various P and D channels of neutron-alpha(n-alpha) and proton-alpha(p-alpha) systems, have been determined to less than 1.53 and 2.17% respectively. The obtained(experimental) resonance energies for p1/2 and p3/2, from their partial cross-sections plots, respectively are 4.1(4) and 0.93(0.89) for n-alpha and 5.21(5) and 1.96(1.96) for p-alpha system. While total cross-section for n-alpha has been found to be matching with values available in literature, that of p-alpha is seen to be following the correct trend.
Keywords
Cite
@article{arxiv.2209.00951,
title = {Phase Shift Analysis of Light Nucleon-Nucleus Elastic Scattering using Reference Potential Approach},
author = {Lalit Kumar and Shikha Awasthi and Anil Khachi and O. S. K. S Sastri},
journal= {arXiv preprint arXiv:2209.00951},
year = {2022}
}
Comments
8 pages, 8 figures, 2 Tables