The nuclear many-body problem

doi:10.1103/PhysRev.103.1353

The nuclear many-body problem

by P Ring, P Schuck

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Physical Review (1980)

Volume: 103, Issue: 5, Publisher: Springer-Verlag, Pages: 1353-1390

ISSN: 15366065
ISBN: 354021206X
DOI: 10.1103/PhysRev.103.1353

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Abstract

This long-standing introductory text thoroughly describes nuclear many-body theory, with an emphasis on methodology and the technical aspects of the theories that have been used to describe the nucleus. Now available in a more affordable softcover edition, the original contents of The Nuclear Many-Body Problem presented here is intended for students with basic knowledge of quantum mechanics and some understanding of nuclear phenomena. From the reviews:"Its scope and complexity are suitable for easy reading by beginning students of nuclear theory. With a crisp and concise style, the authors quickly develop the shell-model approach to the nuclear many-body problem and subsequently devote more than a third of the text to Hartree-Fock and related models..." Physics Today

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The nuclear many-body problem -

Aim of these lectures: To give an overview of contemporary nuclear structure theory, i.e. effective interactions, methods that solve the quantum many-body problem, and results of such calculations. The Nuclear Many-Body Problem Gaute Hagen Second UiO-MSU-ORNL-UT School on: Topics in Nuclear Physics: Many-Body Theory, Connections to Experiment and Nuclear Astrophysics 1

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Content of lectures The nucleon-nucleon force ( 1 Lecture ): Determination of the Nucleon-Nucleon force from scattering. Chiral EFT and other approaches. Renormalization and effective interactions for the nuclear many-body problem. Many-body nuclear structure approaches ( 2 Lectures ) : Phenomenological models �� shell model with a core Ab-initio nuclear structure �� building nuclei from the ground up. Overview of many-body methods. Coupled-cluster theory. Physics of nuclei at the drip lines ( 2 Lectures ) : Open quantum systems and merging of experiment and theory Gamow-Shell Model and Coupled Cluster approaches to weakly bound and unbound nuclear systems. 2

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Lecture 1 Overview and challenges of low-energy nuclear structure. What are the relevant degrees of freedom, and how can we learn about the forces between interacting nucleons? Can we link low-energy nuclear structure to QCD ? 3

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Nucleonic matter What are the relevant degrees of freedom ? 4

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Landscape and consequenses 5