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PhysRevC.104.024318.pdf | 466.62 kB | Adobe PDF | 見る/開く |
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dc.contributor.author | Yoshida, Kenichi | en |
dc.contributor.alternative | 吉田, 賢市 | ja |
dc.date.accessioned | 2022-02-24T10:18:08Z | - |
dc.date.available | 2022-02-24T10:18:08Z | - |
dc.date.issued | 2021-08 | - |
dc.identifier.uri | http://hdl.handle.net/2433/268040 | - |
dc.description.abstract | [Background:] The $K^pi=2^-$ excited band emerges systematically in $N=150$ isotones raging from Pu to No with even-$Z$ numbers, and a sharp drop in energies was observed in Cf. [Purpose:] I attempt to uncover the microscopic mechanism for the appearance of such a low-energy $2^-$ state in $^{248}$Cf. Furthermore, I investigate the possible occurrence of the low-energy $K^pi=2^+$ state to elucidate the mechanism that prefers the simultaneous breaking of the reflection and axial symmetry to the breaking of the axial symmetry alone in this mass region. [Method:] I employ a nuclear EDF method: the Skyrme-Kohn-Sham-Bogoliubov and the quasiparticle random-phase approximation are used to describe the ground state and the transition to excited states. [Results:] The Skyrme-type SkM* and SLy4 functionals reproduce the fall in energy, but not the absolute value, of the $K^pi=2^-$ state at $Z=98$, where the proton 2qp excitation $[633]7/2 otimes [521]3/2$ plays a decisive role for the peculiar isotonic dependence. I find interweaving roles by the pairing correlation of protons and the deformed shell closure at $Z=98$. The SkM* model predicts the $K^pi=2^-$ state appears lower in energy in $^{246}$Cf than in $^{248}$Cf as the Fermi level of neutrons is located in between the $[622]5/2$ and $[734]9/2$ orbitals. Except for $^{250}$Fm in the SkM* calculation, the $K^pi=2^+$ state is predicted to appear higher in energy than the $K^pi=2^-$ state because the quasi-proton $[521]1/2$ orbital is located above the $[633]7/2$ orbital. [Conclusions:] A systematic study of low-lying collective states in heavy actinide nuclei provides a rigorous testing ground for microscopic nuclear models. The present study shows a need for improvements in the EDFs to describe pairing correlations and shell structures in heavy nuclei, that are indispensable in predicting the heaviest nuclei. | en |
dc.language.iso | eng | - |
dc.publisher | American Physical Society (APS) | en |
dc.rights | © 2021 American Physical Society | en |
dc.subject | Nuclear structure & decays | en |
dc.subject | Nucleon distribution | en |
dc.subject | A ≥ 220 | en |
dc.subject | Nuclear density functional theory | en |
dc.subject | Nuclear Physics | en |
dc.title | Pairing and nonaxial-shape correlations in $N=150$ isotones | en |
dc.type | journal article | - |
dc.type.niitype | Journal Article | - |
dc.identifier.jtitle | Physical Review C | en |
dc.identifier.volume | 104 | - |
dc.identifier.issue | 2 | - |
dc.relation.doi | 10.1103/PhysRevC.104.024318 | - |
dc.textversion | publisher | - |
dc.identifier.artnum | 024318 | - |
dcterms.accessRights | open access | - |
datacite.awardNumber | 19K03824 | - |
datacite.awardNumber | 19K03872 | - |
datacite.awardNumber.uri | https://kaken.nii.ac.jp/ja/grant/KAKENHI-PROJECT-19K03824/ | - |
datacite.awardNumber.uri | https://kaken.nii.ac.jp/ja/grant/KAKENHI-PROJECT-19K03872/ | - |
dc.identifier.pissn | 2469-9985 | - |
dc.identifier.eissn | 2469-9993 | - |
jpcoar.funderName | 日本学術振興会 | ja |
jpcoar.funderName | 日本学術振興会 | ja |
jpcoar.awardTitle | 原子核密度汎関数法によるベータ崩壊率の微視的・系統的計算手法の確立 | ja |
jpcoar.awardTitle | 汎関数くりこみ群による量子多体系の密度汎関数理論の構築と第一原理計算 | ja |
出現コレクション: | 学術雑誌掲載論文等 |
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