Symmetry energy: nuclear masses and neutron stars

Pearson, J.M.; Chamel, N.; Fantina, A.F.; Goriely, S.

doi:10.1140/epja/i2014-14043-8

Symmetry energy: nuclear masses and neutron stars

Sep 11, 2013

10 pages

Published in:

Eur.Phys.J.A 50 (2014) 43

Published: 2014

e-Print:

1309.2783 [nucl-th]

DOI:

10.1140/epja/i2014-14043-8

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Abstract: (arXiv)

We describe the main features of our most recent Hartree-Fock-Bogoliubov nuclear mass models, based on 16-parameter generalized Skyrme forces. They have been fitted to the data of the 2012 Atomic Mass Evaluation, and favour a value of 30 MeV for the symmetry coefficient J, the corresponding root-mean square deviation being 0.549 MeV. We find that this conclusion is compatible with measurements of neutron-skin thickness. By constraining the underlying interactions to fit various equations of state of neutron matter calculated {\it ab initio} our models are well adapted to a realistic and unified treatment of all regions of neutron stars. We use our models to calculate the composition, the equation of state, the mass-radius relation and the maximum mass. Comparison with observations of neutron stars again favours a value of J = 30 MeV.

Note:

10 pages, 9 figures, to appear in EPJA special volume on symmetry energy

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