Extraction of the second and fourth radial moments of nuclear charge density from the elastic electron-nucleus scattering

Abstract

The expression for the radial moments rnc of the nuclear charge density has been discussed under the plane wave Born approximation (PWBA) method recently, which is significant to investigate the nuclear surface thickness and neutron distribution radius. In this paper, we extend the studies of extracting second-order moment r2c and fourth-order moment r4c from the Coulomb form factors |FC(q)|2 by the distorted wave Born approximation (DWBA) at the small momentum transfer q region. Based on the relativistic mean-field (RMF) calculations, the DWBA form factors FCDW(q) are expanded into q4 , where the corresponding charge distributions are corrected by the contributions of neutron and spin-orbit densities. In the small q region, it is found that the experimental |FC(q)|2 can be well reproduced by considering the contributions of the r4c at the small q region. Through further analyzing the second-order and fourth-order expansion coefficients of the FCDW(q), the relationship between the expansion coefficients and proton number Z is obtained. By the relationship, we extract the r2c and r4c from the limited experimental data of form factors at the small q region. Within the permissible range of error, the extracted rnc are consistent with the experimental data in this paper.