核壳模型的非经验相互作用:更新

IF 9.1 2区 物理与天体物理 Q1 PHYSICS, NUCLEAR
Steven Ragnar Stroberg, S. Bogner, H. Hergert, J. Holt
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引用次数: 130

摘要

核壳模型可能是理解原子核结构的最重要的概念和计算范式。虽然壳层模型主要用于现象学背景,但在半个多世纪以来,人们一直在努力推导基于核子之间实际相互作用的壳层模型参数。最近,一些从头开始的多体方法——特别是多体微扰理论、无核壳模型、中相似重整化群和耦合簇理论——已经发展出提供有效壳模型哈密顿量的能力。我们对这些方法的现状进行了更新,并研究了它们之间的联系及其潜在的优势和弱点,特别关注了中等相似性重整化群方法。三体力被证明对理解现象学处理中需要的修正是重要的。然后,我们回顾了这些方法的一些应用,与最近的实验测量结果进行了比较,并总结了从头算壳模型理论中仍存在的一些挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonempirical Interactions for the Nuclear Shell Model: An Update
The nuclear shell model has perhaps been the most important conceptual and computational paradigm for the understanding of the structure of atomic nuclei. While the shell model has been used predominantly in a phenomenological context, there have been efforts stretching back more than half a century to derive shell model parameters based on a realistic interaction between nucleons. More recently, several ab initio many-body methods—in particular, many-body perturbation theory, the no-core shell model, the in-medium similarity renormalization group, and coupled-cluster theory—have developed the capability to provide effective shell model Hamiltonians. We provide an update on the status of these methods and investigate the connections between them and their potential strengths and weaknesses, with a particular focus on the in-medium similarity renormalization group approach. Three-body forces are demonstrated to be important for understanding the modifications needed in phenomenological treatments. We then review some applications of these methods to comparisons with recent experimental measurements, and conclude with some remaining challenges in ab initio shell model theory.
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来源期刊
CiteScore
21.50
自引率
0.80%
发文量
18
期刊介绍: The Annual Review of Nuclear and Particle Science is a publication that has been available since 1952. It focuses on various aspects of nuclear and particle science, including both theoretical and experimental developments. The journal covers topics such as nuclear structure, heavy ion interactions, oscillations observed in solar and atmospheric neutrinos, the physics of heavy quarks, the impact of particle and nuclear physics on astroparticle physics, and recent advancements in accelerator design and instrumentation. One significant recent change in the journal is the conversion of its current volume from gated to open access. This conversion was made possible through Annual Reviews' Subscribe to Open program. As a result, all articles published in the current volume are now freely available to the public under a CC BY license. This change allows for greater accessibility and dissemination of research in the field of nuclear and particle science.
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