Testing the Core-Cluster Model Calculations for Some Heavy Deformed Nuclei
International Journal of Modern Physics E • 2019
Publication Information
Authors
L. I. Abou-Salem, K. E. Abdelmageed, I. A. Elmashad, R. Al Allam
Keywords
Core-Cluster Model ; Correlation ; Heavy Nuclei ;Bohr-Sommerfeld Quantization.
Journal
International Journal of Modern Physics E
Publisher
World Scientific
Volume
Not Available
Issue
Not Available
Pages
Not Available
publication.type
International
Paper Link
Open Link
Supplementary Materials
Ibrahim Abdelbasit Ismail Elmashad_10.1142@S0218301319500496.pdf
Abstract
In the present work, the spectra of some even-even isotopes are studied through selecting of core-cluster decomposition of the parent nucleus. The considered nuclei lie in the rare-earth and
the transition metal regions. The Schrodinger equation can be solved using Bohr-Sommerfeld relation and the modified Woods-Saxon beside Coulomb potentials to reproduce the spectra of
these isotopes with mass number (154< A< 168). The theoretical calculations of the excitation energies of the ground-state rotational band are compared to the experimental data. The cluster model calculations show a good agreement with the experimental data for the transitional and rotational nuclei more than the vibrational nuclei. Some negative parity bands of the chosen nuclei are studied. The core-cluster charge products are correlated with the transition probability
B(E2 : 2+ to 0+).
the transition metal regions. The Schrodinger equation can be solved using Bohr-Sommerfeld relation and the modified Woods-Saxon beside Coulomb potentials to reproduce the spectra of
these isotopes with mass number (154< A< 168). The theoretical calculations of the excitation energies of the ground-state rotational band are compared to the experimental data. The cluster model calculations show a good agreement with the experimental data for the transitional and rotational nuclei more than the vibrational nuclei. Some negative parity bands of the chosen nuclei are studied. The core-cluster charge products are correlated with the transition probability
B(E2 : 2+ to 0+).
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