A theoretical study on the impact of centrifugal potential and fragment identification in the decay of compound nuclei (ACN = 60&100)

IF 1 4区 物理与天体物理 Q4 PHYSICS, NUCLEAR International Journal of Modern Physics E Pub Date : 2022-10-01 DOI:10.1142/s021830132250094x
G. Sarkar, A. Kaur, M. Maiti, M. Sharma
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Abstract

Decay analysis of compound nuclei such as [Formula: see text] and [Formula: see text] formed in [Formula: see text]Ca and [Formula: see text]Ni reactions, respectively, is studied using two theoretical frameworks, dynamical cluster-decay model (DCM) and PACE4. To explore the decay dynamics in a relatively lighter mass region [Formula: see text], two more reactions are picked (i) [Formula: see text]Mg forming the [Formula: see text] compound nucleus, (ii) another one involving the odd mass projectile, [Formula: see text]. In DCM, the fusion excitation functions are calculated using sticking [Formula: see text] and nonsticking [Formula: see text] limits of the moment of inertia. For the chosen reactions, fusion cross-sections are equivalent to evaporation residue (ER) cross-sections [Formula: see text] as fission cross-sections are negligible. A lower magnitude of maximum angular momentum [Formula: see text] is obtained via the [Formula: see text] approach in comparison to the [Formula: see text] approach and the angular momentum obtained via the [Formula: see text] approach is closer to the experimental observations. The structure and magnitude of fragmentation potential and preformation probability [Formula: see text] depend on the choice of moment of inertia and the magnitude of angular momentum involved. Besides this, PACE4 is employed to address the fusion cross-section of chosen reactions. The most probable decay channel is identified using both DCM and PACE4 approaches.
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离心势和碎片鉴定对化合物核衰变影响的理论研究(ACN=60&100)
采用动态簇衰变模型(DCM)和PACE4两种理论框架,研究了在[公式:见文]Ca和[公式:见文]Ni反应中形成的[公式:见文]和[公式:见文]复合核的衰变分析。为了探索相对较轻质量区域的衰变动力学[公式:见文],我们又选择了两个反应(i)[公式:见文]Mg形成[公式:见文]复合核,(ii)另一个涉及奇数质量抛射的反应,[公式:见文]。在DCM中,融合激励函数的计算采用粘着[公式:见文]和不粘着[公式:见文]的惯性矩极限。对于所选择的反应,聚变截面相当于蒸发残馀(ER)截面[公式:见正文],因为裂变截面可以忽略不计。与[公式:见文]方法相比,[公式:见文]方法获得的最大角动量[公式:见文]值更小,[公式:见文]方法获得的角动量更接近实验观测值。破碎势和预形成概率的结构和大小[公式:见文本]取决于所涉及的转动惯量和角动量大小的选择。除此之外,采用PACE4来求解所选反应的聚变截面。使用DCM和PACE4方法确定最可能的衰减通道。
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来源期刊
International Journal of Modern Physics E
International Journal of Modern Physics E 物理-物理:核物理
CiteScore
1.90
自引率
18.20%
发文量
98
审稿时长
4-8 weeks
期刊介绍: This journal covers the topics on experimental and theoretical nuclear physics, and its applications and interface with astrophysics and particle physics. The journal publishes research articles as well as review articles on topics of current interest.
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