Nuclear Equation of State and many-body phase-space correlations in the Constrained Molecular Dynamics

IF 1.7 4区物理与天体物理 Q2 PHYSICS, NUCLEAR Nuclear Physics A Pub Date : 2023-10-20 DOI:10.1016/j.nuclphysa.2023.122780

M. Papa

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Abstract

Many-body correlations characterizing the Constrained Molecular Dynamics (CoMD) are analyzed in the case of finite and zero-range effective microscopic interactions. The study begins by analyzing the case of infinite nuclear matter at zero temperature. A comparison with the predictions in the mean-field (MF) limit corresponding to different effective masses, highlights non-negligible differences regarding the produced Equation of State (EoS). A procedure is illustrated to determine the necessary corrections of the effective interaction parameters in the CoMD model so to reproduce the chosen EoS. The specific model calculations, the general feature of the discussed correlations gives a wider meaning to the resulting differences, which are in fact strongly related both to the Pauli principle constraint and to the localization effects related to wave-packets dynamics. Moving on to finite systems, preliminary results are shown in relation to the reaction mechanisms in the ${}^{64}N i +^{48} C a$ system described by the CoMD model. Therefore, the topic covered illustrates the effects produced by the correlations of the CoMD dynamics on the EoS and on some observables commonly studied in heavy ion collisions.

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约束分子动力学中的核状态方程和多体相空间关联

在有限和零范围有效微观相互作用的情况下，分析了约束分子动力学的多体相关特性。本研究首先分析了零温度下无限核物质的情况。与不同有效质量对应的平均场(MF)极限预测的比较，突出了所产生的状态方程(EoS)的不可忽略的差异。给出了一个程序，以确定CoMD模型中有效相互作用参数的必要修正，从而再现所选的EoS。具体的模型计算，所讨论的相关性的一般特征赋予了结果差异更广泛的含义，这些差异实际上与泡利原理约束和与波包动力学相关的局部化效应密切相关。在有限系统中，初步结果与CoMD模型所描述的N64i+48Ca系统中的反应机制有关。因此，所涵盖的主题说明了CoMD动力学的相关性对EoS和重离子碰撞中通常研究的一些观测值所产生的影响。

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来源期刊

Nuclear Physics A 物理-物理：核物理

CiteScore

3.60

自引率

7.10%

发文量

113

审稿时长

61 days

期刊介绍： Nuclear Physics A focuses on the domain of nuclear and hadronic physics and includes the following subsections: Nuclear Structure and Dynamics; Intermediate and High Energy Heavy Ion Physics; Hadronic Physics; Electromagnetic and Weak Interactions; Nuclear Astrophysics. The emphasis is on original research papers. A number of carefully selected and reviewed conference proceedings are published as an integral part of the journal.