Energy levels of nuclei 40Sc and 40K as a function of semi-classical coupling angle θ1,2 within the modified surface delta-interaction

Energy levels of nuclei 40Sc and 40K as a function of semi-classical coupling angle θ1,2 within the modified surface delta-interaction

In this work, nuclear shell model was applied using modified surface delta-interaction to calculate, in particle-hole state, the energy levels of isobar nuclei 40Sc and 40K. Particles are in the model space (1f7/2) while the holes are found in the model space (1d3/2, 1s1/2, 1d5/2). The total angular...

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Bibliographic Details
Main Authors: Dalal Naji Hameed, Ali Khalaf Hasan
Format: Article
Language:English
Published: Institute for Nuclear Research, National Academy of Sciences of Ukraine 2019-06-01
Series:Ядерна фізика та енергетика
Subjects:
shell model
energy levels
modified surface delta-interaction
40Sc
40K
Online Access:http://jnpae.kinr.kiev.ua/20.2/html/20.2.0146.html
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Summary:In this work, nuclear shell model was applied using modified surface delta-interaction to calculate, in particle-hole state, the energy levels of isobar nuclei 40Sc and 40K. Particles are in the model space (1f7/2) while the holes are found in the model space (1d3/2, 1s1/2, 1d5/2). The total angular momentum and parity are identified for possible particles and holes in nuclei above. Thus, we have used a theoretical study to find relationship between energy levels and the semi-classical coupling angle θ1,2 at different orbitals within particle-hole configuration. We notice the energy levels seem to follow two universal functions which depend on the semi-classical coupling angles θ1,2. We found the theoretical data agree to the experimental data.
ISSN:1818-331X
2074-0565

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