Isotopic shift in magic nuclei within relativistic mean-field formalism
The ground-state properties such as binding energy, root-mean-square radius, pairing energy, nucleons density distribution, symmetry energy, and single-particle energies are calculated for the isotopic chain of Ca, Sn, Pb, and Z = 120 nuclei. The recently developed G3 and IOPB-I forces along with th...
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2021
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my.um.eprints.260862021-12-29T03:57:15Z http://eprints.um.edu.my/26086/ Isotopic shift in magic nuclei within relativistic mean-field formalism Pattnaik, Jeet Amrit Bhuyan, Mrutunjaya Panda, R.N. Patra, S.K. Q Science (General) QC Physics The ground-state properties such as binding energy, root-mean-square radius, pairing energy, nucleons density distribution, symmetry energy, and single-particle energies are calculated for the isotopic chain of Ca, Sn, Pb, and Z = 120 nuclei. The recently developed G3 and IOPB-I forces along with the DD-ME1 and DD-ME2 sets are used in the analysis employing the relativistic mean-field approximation. To locate the magic numbers in the superheavy region and to explain the observed kink at neutron number N = 82 for Sn isotopes, a three-point formula is used to see the shift of the observable and other nuclear properties in the isotopic chain. Unlike the electronic configuration, due to strong spin-orbit interaction, the higher spin orbitals are occupied earlier than the lower spin, causing the possible kink at the neutron magic numbers. We find peaks at the known neutron magic number with the confirmation of sub-shell, shell closure respectively at N = 40, 184 for Ca and 304120. © 2021 IOP Publishing Ltd. IOP Publishing: Hybrid Open Access 2021 Article PeerReviewed Pattnaik, Jeet Amrit and Bhuyan, Mrutunjaya and Panda, R.N. and Patra, S.K. (2021) Isotopic shift in magic nuclei within relativistic mean-field formalism. Physica Scripta, 96 (12). p. 125319. ISSN 0031-8949 https://doi.org/10.1088/1402-4896/ac3a4d doi:10.1088/1402-4896/ac3a4d |
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Q Science (General) QC Physics |
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Q Science (General) QC Physics Pattnaik, Jeet Amrit Bhuyan, Mrutunjaya Panda, R.N. Patra, S.K. Isotopic shift in magic nuclei within relativistic mean-field formalism |
| description |
The ground-state properties such as binding energy, root-mean-square radius, pairing energy, nucleons density distribution, symmetry energy, and single-particle energies are calculated for the isotopic chain of Ca, Sn, Pb, and Z = 120 nuclei. The recently developed G3 and IOPB-I forces along with the DD-ME1 and DD-ME2 sets are used in the analysis employing the relativistic mean-field approximation. To locate the magic numbers in the superheavy region and to explain the observed kink at neutron number N = 82 for Sn isotopes, a three-point formula is used to see the shift of the observable and other nuclear properties in the isotopic chain. Unlike the electronic configuration, due to strong spin-orbit interaction, the higher spin orbitals are occupied earlier than the lower spin, causing the possible kink at the neutron magic numbers. We find peaks at the known neutron magic number with the confirmation of sub-shell, shell closure respectively at N = 40, 184 for Ca and 304120. © 2021 IOP Publishing Ltd. |
| format |
Article |
| author |
Pattnaik, Jeet Amrit Bhuyan, Mrutunjaya Panda, R.N. Patra, S.K. |
| author_facet |
Pattnaik, Jeet Amrit Bhuyan, Mrutunjaya Panda, R.N. Patra, S.K. |
| author_sort |
Pattnaik, Jeet Amrit |
| title |
Isotopic shift in magic nuclei within relativistic mean-field formalism |
| title_short |
Isotopic shift in magic nuclei within relativistic mean-field formalism |
| title_full |
Isotopic shift in magic nuclei within relativistic mean-field formalism |
| title_fullStr |
Isotopic shift in magic nuclei within relativistic mean-field formalism |
| title_full_unstemmed |
Isotopic shift in magic nuclei within relativistic mean-field formalism |
| title_sort |
isotopic shift in magic nuclei within relativistic mean-field formalism |
| publisher |
IOP Publishing: Hybrid Open Access |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/26086/ https://doi.org/10.1088/1402-4896/ac3a4d |
| _version_ |
1720980440688361472 |
| score |
13.250246 |