Coulomb dissociation, a tool for nuclear astrophysics

G. Baur; S. Typel

arXiv:0705.3307·nucl-th·November 26, 2008·2 cites

Coulomb dissociation, a tool for nuclear astrophysics

G. Baur, S. Typel

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TL;DR

This paper discusses Coulomb dissociation as an indirect method in nuclear astrophysics, presenting an analytically solvable model for electromagnetic excitation in halo nuclei like ^{11}Be.

Contribution

It introduces a new analytically solvable approach to study electromagnetic excitation in halo nuclei, enhancing the theoretical tools for nuclear astrophysics research.

Findings

01

Analytical model for electromagnetic excitation in ^{11}Be

02

Application of Coulomb dissociation as an indirect method

03

Improved understanding of halo nucleus behavior

Abstract

A short status report on Coulomb dissociation, an indirect method for nuclear astrophysics is given. An analytically solvable approach to study electromagnetic excitation in ^{11}Be, the archetype of a halo nucleus, is proposed.

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Taxonomy

TopicsNuclear physics research studies · Scientific Research and Discoveries · Particle accelerators and beam dynamics