Symmetry and Supersymmetry in Nuclear Physics

A.B. Balantekin (Wisconsin U.; Madison)

arXiv:0711.0710·nucl-th·November 6, 2007·2 cites

Symmetry and Supersymmetry in Nuclear Physics

A.B. Balantekin (Wisconsin U., Madison)

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TL;DR

This paper surveys algebraic and group-theoretical methods applied to diverse nuclear physics problems, demonstrating their utility in understanding nuclear structure, reactions, and astrophysical phenomena.

Contribution

It provides a comprehensive overview of algebraic approaches in nuclear physics, highlighting their applications across multiple subfields and problems.

Findings

01

Algebraic methods effectively model pairing in many-nucleon systems

02

Group-theoretical techniques aid in understanding fusion reactions and supernova neutrinos

03

Survey showcases the versatility of algebraic approaches in nuclear physics

Abstract

A survey of algebraic approaches to various problems in nuclear physics is given. Examples are chosen from pairing of many-nucleon systems, nuclear structure, fusion reactions below the Coulomb barrier, and supernova neutrino physics to illustrate the utility of group-theoretical and related algebraic methods in nuclear physics.

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Taxonomy

TopicsNuclear physics research studies · Quantum Chromodynamics and Particle Interactions · Quantum chaos and dynamical systems