2p放射性半衰期的变形依赖性：在Z<82的质量区域使用新公式的探针

IF 3.4 3区物理与天体物理 Q2 PHYSICS, NUCLEAR

Journal of Physics G: Nuclear and Particle Physics Pub Date : 2022-09-26 DOI:10.1088/1361-6471/ac991d

G. Saxena, M. Aggarwal, D. Singh, A. Jain, P. K. Sharma, H. L. Yadav

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引用次数: 2

摘要

在周期图上研究了变形对双质子(2p)放射性半衰期的影响。采用我们新提出的半经验公式估计了2p衰变半衰期，其中核变形已以现象学的方式纳入。该公式的稳健性证明，因为它估计的测量值相当准确，因此，可靠地应用于预测其他可能的2p发射体。对于许多没有衰变能量实验数据的富质子核，我们使用了相对论平均场(RMF)方法计算得到的理论值。理论衰变能量值的不确定性通过机器学习(ML)技术最小化。探讨了2p放射性与2p晕和变形的相关性。我们的计算显示了几个2p- p发射器的形状共存现象，其中发现基态的长形更占优势。

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Deformation dependence of 2p-radioactivity half-lives: Probe with a new formula across the mass region with Z<82

Effect of deformation on half-life of two-proton (2p) radioactivity is investigated across the periodic chart for nuclei with Z<82. 2p-decay half-lives are estimated by employing our newly proposed semi-empirical formula wherein the nuclear deformation has been incorporated in a phenomenological way. Robustness of the formula is demonstrated as it estimates the measured values quite accurately and, hence, reliably applied to predict the other possible 2p-emitters. For many proton rich nuclei for which experimental data on the decay energies are not available, we have used the theoretical values obtained from our calculations using the relativistic mean-field (RMF) approach. The uncertainties in the theoretical decay energy values are minimised by machine learning (ML) technique. Correlation of 2p-radioactivity with 2p-halo and deformation is probed. Our calculations show the phenomenon of shape coexistence in several 2p-emitters, wherein the prolate shape is found to be more predominant for the ground state.

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来源期刊

Journal of Physics G: Nuclear and Particle Physics 物理-物理：核物理

CiteScore

7.60

自引率

5.70%

发文量

105

审稿时长

1 months

期刊介绍： Journal of Physics G: Nuclear and Particle Physics (JPhysG) publishes articles on theoretical and experimental topics in all areas of nuclear and particle physics, including nuclear and particle astrophysics. The journal welcomes submissions from any interface area between these fields. All aspects of fundamental nuclear physics research, including: nuclear forces and few-body systems; nuclear structure and nuclear reactions; rare decays and fundamental symmetries; hadronic physics, lattice QCD; heavy-ion physics; hot and dense matter, QCD phase diagram. All aspects of elementary particle physics research, including: high-energy particle physics; neutrino physics; phenomenology and theory; beyond standard model physics; electroweak interactions; fundamental symmetries. All aspects of nuclear and particle astrophysics including: nuclear physics of stars and stellar explosions; nucleosynthesis; nuclear equation of state; astrophysical neutrino physics; cosmic rays; dark matter. JPhysG publishes a variety of article types for the community. As well as high-quality research papers, this includes our prestigious topical review series, focus issues, and the rapid publication of letters.