%0 Journal Article
%T The Ground-State Calculations for Some Nuclei by Mesonic Potential of Nucleon-Nucleon Interaction
%A Abou-Salem
%A L. I.
%A Hanna
%A K. M.
%A Hussien
%A R.
%A Sewailem
%A S. H. M.
%A Shalaby
%A Asmaa G.
%J -
%D 2020
%R https://doi.org/10.1155/2020/3271975
%X The interaction of nucleon-nucleon (NN) has certain physical characteristics, indicated by nucleon, and meson degrees of freedom. The main purpose of this work is calculating the ground-state energies of and through the two-body system with the exchange of mesons ( , , and ) that mediated between two nucleons. This paper investigates the NN interaction based on the quasirelativistic decoupled Dirac equation and self-consistent Hartree-Fock formulation. We construct a one-boson exchange potential (OBEP) model, where each nucleon is treated as a Dirac particle and acts as a source of pseudoscalar, scalar, and vector fields. The potential in the present work is analytically derived with two static functions of meson, the single-particle energy-dependent (SPED) and generalized Yukawa (GY) functions; the parameters used in meson functions are just published ones (mass, coupling constant, and cutoff parameters). The theoretical results are compared to other theoretical models and their corresponding experimental data; one can see that the SPED function gives more satisfied agreement than the GY function in the case of the considered nuclei
%U https://www.hindawi.com/journals/ahep/2020/3271975/