Speaker
Description
The study of nuclear matter is one of the most interesting branches of nuclear physics from a theoretical and experimental point of view. Especially it goes quite capacious when the internal structure of studying nuclei is extraordinary. As an example can be nuclei in follow: ${}^{6}$He and ${}^{6}$Li, which are unstable and have a Borromean structure; ${}^{9}$Be having also Borromean structure, it is stable and has relatively significant deformation in the ground state, has the first excited state with positive parity pointing to the non-applicability of the standard shell model.
In this work, the densities of the nuclear matter of the listed nuclei are studied within the framework of the three-body model. An analytical expression is derived using the three-body wave function based on the Gaussian function for the density distribution function of nuclear matter. Comparisons with available data and other theoretical models are made.
