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The nuclear energy density functionals with modified radial dependence of the isoscalar effective mass

arXiv:0912.2203 · doi:10.1142/S0218301310015242

Abstract

Calculations for infinite nuclear matter with realistic nucleon-nucleon interactions suggest that the isoscalar effective mass (IEM) of a nucleon at the saturation density equals $m^*/m\sim 0.8\pm 0.1$, at variance with empirical data on the nuclear level density in finite nuclei which are consistent with $m^*/m\approx 1$. This contradicting results might be reconciled by enriching the radial dependence of IEM. In this work four new terms are introduced into the Skyrme-force inspired local energy-density functional: $τ(\nablaρ)^2$, $τ\frac{dρ}{dr}$, $τ^2$ and $τΔρ$. The aim is to investigate how they influence the radial dependence of IEM and, in turn, the single-particle spectra.

6 pages, 2 figures, contribution from 16th Nuclear Physics Workshop in Kazimierz Dolny, Poland