Study of Ground State Properties of 8Li & 11Be ExoticNuclei Using GS and WS Potentials

What is it about?

Abstract. The two-body model of (Core + n) within Gaussian (GS) and Woods Saxon (WS) wave functions is usedalook at the ground state featuresexotic 8Li and 11Be nuclei, such as the neutron, proton, and matter densities ancorresponding root mean square ( radii.

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Photo by Simon Berger on Unsplash

Photo by Simon Berger on Unsplash

Why is it important?

The GS and WS wave functions within the TBM of [Core + p] are utilized to investigate the groundstate characteristics of halo °C and 2N nuclei, including p, (r), P(r) and p (r) distributions andrelated rms radii.The TBM provides a good descriptionthe nuclear structure for above proton-rich exotic nuclei, 22 December 2023 18:00:4 according to the calculated results. The PWBA is used to calculate the elastic form factors of halo nuclei and 12N as well as their stable isotopes 13C and 14N. The influence of the p. (r) of the last proton °C and 12N lead to major difference between the elastic form factors of halo nuclei and their stable isotopes.The σ, for these nuclei are investigated using the Kox formula and OLA of GM with single particle HOwave functions. Furthermore, the GM is employed to calculate the exotic nuclei matter rms radii. Thecalculated results for the selected halo nuclei are in good agreement with the experimental data.