arXiv:1708.04437 Abstract | arXiv Analytics

arXiv:1708.04437 [nucl-th]Abstract References Reviews Resources

From quark and nucleon correlations to discrete symmetry and clustering in nuclei

Published 2017-08-15Version 1

Starting with a quark model of nucleon structure in which the valence quarks are strongly correlated within a nucleon, the light nuclei are constructed by assuming similar correlations of the quarks of neighboring nucleons. Applying the model to larger collections of nucleons reveals the emergence of the face-centered cubic (FCC) symmetry at the nuclear level. Nuclei with closed shells possess octahedral symmetry. Binding of nucleons are provided by quark loops formed by three and four nucleon correlations. Quark loops are responsible for formation of exotic (borromean) nuclei, as well. The model unifies independent particle (shell) model, liquid-drop and cluster models.

Comments: 12 pages, 4 figures. Presented at Int. Symp. "Exotic Nuclei - Exon 2016"

Categories: nucl-th

Keywords: nucleon correlations, discrete symmetry, closed shells possess octahedral symmetry, quark loops, model unifies independent particle

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