M. Tomaselli, T. Kuehl, D. Ursescu, S. Fritzsche
Published 2006-12-20, updated 2007-01-05Version 3
The structures and distributions of light nuclei are investigated within a microscopic correlation model. Two particle correlations are responsible for the scattering of model particles either to low momentum- or to high momentum-states. The low momentum states form the model space while the high momentum states are used to calculate the G-matrix. The three and higher order particle correlations do not play a role in the latter calculation especially if the correlations induced by the scattering operator are of sufficient short range. They modify however, via the long tail of the nuclear potential, the Slater determinant of the (A) particles by generating excited Slater's determinants.
Comments: To appear in Hyperfine Interactions. Corrected version accordingly the referee report
Charge radii and structural evolution in Sr, Zr, and Mo isotopes
Electron scattering form factors from exotic nuclei
Hartree-Fock-Bogoliubov calculation of charge radii of Sn, Ba, Yb, and Pb isotopes
