| Abstrakt: |
A theoretical comparison has been made for some calcium isotopes ( 2 0 Ca) which are even–even nuclei and have the atomic mass (Z = 20) with its previous experimental data. Theoretical calculations of some 2 0 Ca isotopes (A = 42, 44, 46, 48, 50, 52) adopted by the shell model theory were performed to calculate the transition rate B(E2), theoretical intrinsic quadruple moments ( Q 0 Th ) and theoretical deformation parameters ( β 2 , δ) Th were calculated by two methods by using different effective interactions for each isotope such as, su3fp, fpbm, fprkb, fpd6, kb3. Through code NuShellX@MSU, the single-body density matrix was calculated. The effects of the core polarization were neglected by adopting various effective charges that were employed, effective charges of conventional (Con-E), effective charges of standard (St-E) and effective charges of Bohr and Mottelson (B-M-E) which were calculated. The theoretical values of the B(E2)Th, the Q 0 Th and the ( β 2 , δ) Th were then compared with the previous experimental data where values of the transition rate B(E2)Th, theoretical intrinsic quadrupole moments Q 0 Th and theoretical deformation parameter ( β 2 , δ) Th , using the fpbm, the fpd6 and the kb3 interactions were the best. [ABSTRACT FROM AUTHOR] |
