Coupling dynamical and statistical mechanisms for baryonic cluster production in nucleus collisions of intermediate and high energies

A. Botvina, N. Buyukcizmeci, M. Bleicher
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Abstract

Central nucleus-nucleus collisions produce many new baryons and the nuclear clusters can be formed from these species. The phenomenological coalescence models were sufficiently good for description of light nuclei yields in a very broad range of collision energies. We demonstrate that in reality the coalescence process can be considered as 1) the formation of primary diluted excited baryon clusters and 2) their following statistical decay leading to the final cold fragment production. We argue that the formation of such excited systems from the interacting baryons is a natural consequence of the nuclear interaction at subnuclear densities resulting in the nuclear liquid-gas type phase transition in finite systems. In this way one can provide a consistent interpretation of the experimental fragment yields (FOPI data) including the important collision energy dependence in relativistic ion reactions. We investigate the regularities of this new kind of fragment production, for example, their yield, isospin, and kinetic energy characteristics. A generalization of such a clusterization mechanism for hypernuclear matter is suggested. The isotope yields and particle correlations should be adequate for studying these phenomena.
中高能核碰撞重子团簇产生的耦合动力学和统计机制
中心核-核碰撞产生许多新的重子,这些重子可以形成核团。现象学聚结模型足以描述在很宽的碰撞能量范围内的轻核产率。我们证明,在现实中,合并过程可以被认为是1)初级稀释激发态重子团簇的形成和2)它们随后的统计衰变导致最终冷碎片的产生。我们认为,这种由重子相互作用形成的激发态系统是有限系统在亚核密度下核相互作用导致核液气型相变的自然结果。通过这种方式,人们可以对实验碎片产率(FOPI数据)提供一致的解释,包括相对论性反应中重要的碰撞能量依赖。我们研究了这种新型碎片产生的规律,如产率、同位旋和动能特性。对超核物质的这种聚类机制进行了推广。同位素产率和粒子相关性应该足以研究这些现象。
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