par Shchechilin, Nikolai 
;Chamel, Nicolas ;Pearson, John Michael
Référence Physical Review C, 108, 2
Publication Publié, 2023-08-10
;Chamel, Nicolas ;Pearson, John MichaelRéférence Physical Review C, 108, 2
Publication Publié, 2023-08-10
Article révisé par les pairs
| Résumé : | Our previous investigation of neutron-star crusts, based on the functional BSk24, led to a substantial reduction of the pasta mantle when Strutinsky integral and pairing corrections were added on top of the fourth-order extended Thomas-Fermi (ETF) method. Here, our earlier calculations are widened to a larger set of functionals within the same family and we find that the microscopic corrections weaken significantly the influence of the symmetry energy. In particular, the correlation observed at the pure ETF level between the density for the onset of pasta formation and the symmetry energy vanishes, not only for the L coefficient but also for the symmetry-energy values at the relevant densities. Moreover, the inclusion of microscopic corrections results in a much lower abundance of pasta for all functionals. |
