Anthea Francesca Fantina, Jérôme Margueron, Paola Donati, Pierre M. Pizzochero
Published 2010-11-30Version 1
A correction to the nuclear functional is proposed in order to improve the density of states around the Fermi surface. The induced effect of this correction is to produce a surface-peaked effective mass, whose mean value can be tuned to get closer to 1 for the states close to the Fermi energy. In this work we study the effect of the correction term on global properties of nuclei such as the density of states in $^{40}$Ca and $^{208}$Pb, pairing and specific heat at low temperature in $^{120}$Sn. In the latter application, an explicit temperature-dependent form of the correction term is employed and it is shown that the critical temperature is reduced by 40-60~keV.
Comments: 3 tables, 10 figures
Journal: Journal of Physics G: Nuclear and Particle Physics (2010)
Global properties of the Skyrme-force-induced nuclear symmetry energy
Low density expansion and isospin dependence of nuclear energy functional: comparison between relativistic and Skyrme models
Surface-peaked effective mass in the nuclear energy density functional and its influence on single-particle spectra
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