@article{Al-Sammarraie_Ahmed_Okhunov_2021, title={Large Scale Shell Model Calculations of the Negative-Parity States Structure in 24Mg Nucleus}, volume={66}, url={https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2020123}, DOI={10.15407/ujpe66.4.293}, abstractNote={<p>The negative-parity states of <sup>24</sup>Mg nucleus are investigated within the shell model. We are based on the calculations of energy levels, total squared form factors, and transition probability using the p-sd-pf (PSDPF) Hamiltonian in a large model space (0 + 1) hW. The comparison between the experimental and theoretical states showed a good agreement within a truncated model space. The PSDPF-based calculations successfully reproduced the data on the total squared form factors and transition probabilities of the negative-parity states in <sup>24</sup>Mg nucleus. These quantities depend on the one-body density matrix elements that are obtained from the PSDPF Hamiltonian. The wave functions of radial one-particle matrix elements calculated with the harmonic-oscillator potential are suitable to predict experimental data by changing the center-of-mass corrections.</p>}, number={4}, journal={Ukrainian Journal of Physics}, author={Al-Sammarraie, A.A. and Ahmed, F.A. and Okhunov, A.A.}, year={2021}, month={May}, pages={293} }