Alpha decay and cluster radioactivity investigation of actinide nuclei

R. Belhaddouf, M. R. Oudih, M. Fellah, N. H. Allal
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Abstract

Based on the Unified Fission Model with a Woods–Saxon potential (UFMWS), we have investigated alpha decay and cluster radioactivity of actinide nuclei. To ensure accuracy, we determined the most precise [Formula: see text]-values by comparing the results of four nuclear mass models: the liquid drop model (LDM), the DZ28 model, the WS4 model, and the finite range droplet model (FRDM), which were recently improved using a machine learning algorithm. Among these models, it is found that the improved WS4 (IWS4) provides the most accurate [Formula: see text]-values, enabling the UFMWS model to effectively reproduce experimental alpha and cluster decay half-lives. Consequently, the UFMWS model using IWS4 [Formula: see text]-values was employed to explore various combinations of parent nuclei and alpha particle as well as even–even emitted clusters ranging from Be to Si. The obtained results are consistent with previous study that identified minima in half-lives near corresponding to the doubly magic [Formula: see text]Pb daughter nucleus or its neighboring nuclei. It is found that neutron-deficient parent nuclei generally displayed the shortest half-lives, most of which are within the experimental range. Considering the experimental limitations, cluster decays favorable for measurement in the actinide region were identified. Interestingly, these decays did not involve the most neutron-deficient nuclei.
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锕系原子核的α衰变和团簇放射性研究
基于woodssaxon势统一裂变模型(UFMWS),我们研究了锕系元素核的α衰变和团簇放射性。为了确保准确性,我们通过比较液滴模型(LDM)、DZ28模型、WS4模型和有限范围液滴模型(FRDM)四种核质量模型的结果来确定最精确的[公式:见文本]-值,这四种模型最近使用机器学习算法进行了改进。在这些模型中,发现改进的WS4 (IWS4)提供了最准确的[公式:见文本]-值,使UFMWS模型能够有效地再现实验α和簇衰变半衰期。因此,使用IWS4[公式:见文本]值的UFMWS模型被用于探索母核和α粒子的各种组合以及从Be到Si的均匀发射团簇。所得到的结果与先前的研究一致,即在双魔法[公式:见文本]Pb子核或其邻近核附近确定了半衰期的最小值。发现缺中子母核的半衰期一般最短,大多数在实验范围内。考虑到实验的局限性,在锕系元素区域确定了有利于测量的簇衰变。有趣的是,这些衰变并不涉及大多数中子缺乏的原子核。
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