Coupled-channels calculations for nuclear reactions: From exotic nuclei to superheavy elements

IF 14.5 2区物理与天体物理 Q1 PHYSICS, NUCLEAR

Progress in Particle and Nuclear Physics Pub Date : 2022-07-01 DOI:10.1016/j.ppnp.2022.103951

K. Hagino , K. Ogata , A.M. Moro

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引用次数: 21

Abstract

Atomic nuclei are composite systems, and they may be dynamically excited during nuclear reactions. Such excitations are not only relevant to inelastic scattering but they also affect other reaction processes such as elastic scattering and fusion. The coupled-channels approach is a framework which can describe these reaction processes in a unified manner. It expands the total wave function of the system in terms of the ground and excited states of the colliding nuclei, and solves the coupled Schrödinger equations to obtain the $S$ -matrix, from which several cross sections can be constructed. This approach has been a standard tool to analyze experimental data for nuclear reactions. In this paper, we review the present status and the recent developments of the coupled-channels approach. This includes the microscopic coupled-channels method and its application to cluster physics, the continuum discretized coupled-channels (CDCC) method for breakup reactions, the semi-microscopic approach to heavy-ion subbarrier fusion reactions, the channel coupling effects on nuclear astrophysics and syntheses of superheavy elements, and inclusive breakup and incomplete fusion reactions of weakly-bound nuclei.

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核反应的耦合通道计算:从外来核到超重元素

原子核是复合系统，在核反应过程中可能受到动态激发。这种激发不仅与非弹性散射有关，而且还影响其他反应过程，如弹性散射和聚变。耦合通道方法是一种可以统一描述这些反应过程的框架。用碰撞核的基态和激发态展开系统的总波函数，求解耦合的Schrödinger方程得到s矩阵，由此可以构造若干截面。这种方法已经成为分析核反应实验数据的标准工具。本文综述了耦合通道方法的研究现状和最新进展。这包括微观耦合通道方法及其在团簇物理中的应用，连续离散耦合通道(CDCC)方法用于分裂反应，半微观方法用于重离子亚势垒聚变反应，通道耦合对核天体物理和超重元素合成的影响，以及弱束缚核的包涵分裂和不完全聚变反应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Progress in Particle and Nuclear Physics 物理-物理：核物理

CiteScore

24.50

自引率

3.10%

发文量

审稿时长

72 days

期刊介绍： Taking the format of four issues per year, the journal Progress in Particle and Nuclear Physics aims to discuss new developments in the field at a level suitable for the general nuclear and particle physicist and, in greater technical depth, to explore the most important advances in these areas. Most of the articles will be in one of the fields of nuclear physics, hadron physics, heavy ion physics, particle physics, as well as astrophysics and cosmology. A particular effort is made to treat topics of an interface type for which both particle and nuclear physics are important. Related topics such as detector physics, accelerator physics or the application of nuclear physics in the medical and archaeological fields will also be treated from time to time.