Phase Shift Analysis for Neutron-Alpha Elastic Scattering Using Phase Function Method with Local Gaussian Potential

Abstract

Background: The nucleon-nucleus scattering has been studied using Gaussain potential with spin-orbit term of Thomas type to fit the experimental scattering phase shifts (SPS). Recently, Hulthen potential without spin-orbit term has been utilised for studying α–nucleon scattering with phase function method (PFM). Purpose: The main objectives of this paper are: 1. To obtain the best possible interaction potentials that best describe the neutron-α elastic SPS in various channels. 2. To compute the partial cross-sections for scattering p-states and the total cross-section for the reaction. Methods: The local interaction potential is modeled using Gaussian function. The non-local spin orbit term is chosen to be proportional to derivative of local potential. The phase function method has been numerically solved using 5th order Runge-Kutta method to compute the SPS. The model parameters are varied in an iterative fashion to minimise the mean absolute percentage error (MAPE) w.r.t. the experimental SPS. Results: 1. The SPS for S, P and D channels have been obtained with MAPE values less than 3%. 2. The partial cross-sections for p 1/2 and p 3/2 have been plotted and the respective resonance energies and FWHM have been found to be in reasonable agreement with values in literature. 3. The total cross-section for the reaction has been determined and found to be matching well with experimental findings. Conclusions: Gaussian potential with associated spin-orbit term has been shown to be a reasonably good choice for explaining the n-α scattering reaction.