Calculation of quadrupole deformation parameter (β) from reduced transition probability B(E2) for (0+1 2+1) transition at (even-even) 62-68Zn isotopes

Abstract

In this work the excited energy levels, reduced transition probabilities, B(E2), intrinsic quadrupole moments and deformation parameters have been calculated for 62-68Zn isotopes with neutrons (N=32,34,36 and 38 ). Nushellx code has been applied for all energy states of (fp-shell) nuclei. Shell-model calculations for the zinc isotopes have been carried out with active particles distributed in the lp3/2, 0f5/2 and lp1/2 orbits outside doubly-magic closed "56Ni"core nucleus. By using (f5p) model space and (f5pvh) interaction, the theoretical results have been obtained and compared with the available experimental results. The excited energies values, electric transition probability B(E2), intrinsic quadrupole moment (Q0) and deformation parameters (β2) have been appeared at complete agreement with the experimental values. As well as, the energy levels have been confirmed and determined for the angular momentum and parity of experimental values which have not been well established and determined experimentally. On the other hand, it has been predicted some of the new energy levels and electric transition probabilities for the 62-68Zn isotopes under this study which were previously unknown in experimental information.