Large-scale shell model calculations of the <SUP align="right">25,26</SUP>Mg, <SUP align="right">27</SUP>Al and <SUP align="right">19</SUP>F nucleus

Abstract

Shell model calculations were performed to study the energy levels for the 25,26Mg and 27Al nuclei by employing the sdpfnow effective interaction with the large-scale sdpf model space by using the shell model code [email protected] for Windows. The electron scattering form factors for 19F nucleus also have been studied with and without effective charge on the sdpf-model space and Tassie model. The Harmonic Oscillator and Skyrme potentials have been used to calculate the wave functions of radial single-particle matrix elements. The level schemes are compared with the experimental data. Coulomb and magnetic form factors in the present work include the transitions from ground state (1/2+ 1/2) to the (7/2+ 1/2), (9/2+ 1/2), (3/2− 1/2), and (11/2− 1/2) states in 19F. Good agreements were obtained for all nuclei under study for energy levels and form factors comparing with the available experimental data.