Noncolela SiveEaston JohnCherif W. Yahia2026-05-252026-05-252025Cherif, W.Y., Damache, S., Ouichaoui, S., Kiener, J., Lawrie, E.A., Lawrie, J.J., Tatischeff, V., Belhout, A., Moussa, D., Papka, P. and Benhabiles-Mezhoud, H., 2025. Optical model potential parameter optimization for nucleon-induced reactions on 40Ca: Implications on γ-ray production cross sections for residual Argon nuclei. In EPJ Web of Conferences (Vol. 322, p. 05004). EDP Sciences.https://doi.org/10.1051/epjconf/202532205004https://hdl.handle.net/10566/22885We have optimized the optical model potential (OMP) parameters for nucleon (protons and neutrons) induced reaction on 40Ca using the OPTMAN code available on the RIPL-3 data library. The potentials, geometrical and nuclear deformation parameters were extracted via fitting angular distribution data for proton/neutron elastic and inelastic scattering (Ep,n = 0 – 200 MeV) taken from the EXFOR data library. Our results demonstrate improvement in the prediction of the angular distribution cross sections compared to the Koning-Delaroche OMP. We have, then, calculated the γ-ray production cross sections of the most intense transitions emitted by 38Ar (Eγ = 2167.47 keV) and 36Ar (Eγ = 1970.38 keV) residual nuclei produced in 40Ca(p,xγ)(38,36)Ar, using both our OMP parameters and TALYS build-in OMP parameters. The results of the calculations were compared with preliminary cross section data extracted in the analysis of 40Ca(p,xγ2168 keV)38Ar, and 40Ca(p,xγ1970 keV)36Ar for incident proton energies ranging from 30 – 125 MeV.enOptical model potentialParametersKoning-DelarocheParametrizationsArticle