Abstract
The ground state properties and the properties of the low-lying states of the beryllium isotopes are investigated using the extended version of the Antisymmetrized Molecular Dynamics Multi-Slater Determinant model. The theoretical method is found to be very useful to study the ground state properties of various nuclei including light unstable nuclei. Many experimental data can be successfully reproduced by the present approach. Binding energies, the energies of the 21+ states of the even-even isotopes, electromagnetic transition strengths and quadrupole moments of the proton and neutron distribution are calculated. The abnormal spin and parity of the ground state of 11Be can be described with properly chosen interaction parameters. Interesting phenomena such as the development of cluster structures is observed.
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