The Charge density distributions, elastic and inelastic longitudinal electron scattering form factors of 28Si and 32S Nuclei

Abstract

  Calculated charge density distributions using folding model which has been applied to study the roles of the center of mass and Pauli pair association affect the density relying of the efficient two-body interactions, as a formula for the two-body density applicable to limit nuclei may be derived in terms of the pair correlation function. For ²⁸Si and ³²S, the elastic electrons scattering form factors F(q) and the root of the mean cube charge radii 〈r^2 〉^(1/2)was determined. The inelastic longitudinal electron scattering form factors associated with the isosceles transitioning T = 0 of the (  ,( and (   ) for the ²⁸Si and ³²S nuclei were determined. A wave function within the model space, which is defined by the orbits     , 2  and ,is unable to produce an acceptable form factor. The core-polarization impact are assessed by incorporating the Tassie-model shape and the two-body distribution of charge density  into the model space, which results in a high degree of matching with the experimental data.