par Chamel, Nicolas 
;Haensel, Pawel
Référence Physical Review C (Nuclear Physics), 73, 4, 045802
Publication Publié, 2006-04-06
;Haensel, PawelRéférence Physical Review C (Nuclear Physics), 73, 4, 045802
Publication Publié, 2006-04-06
Article révisé par les pairs
| Résumé : | Hydrodynamic simulations of neutron star cores that are based on a two-fluid description in terms of a neutron-proton superfluid mixture require the knowledge of the Andreev-Bashkin entrainment matrix which relates the momentum of one constituent to the currents of both constituents. This matrix is derived for arbitrary nuclear asymmetry at zero temperature and in the limits of small relative currents in the framework of the energy density functional theory. The Skyrme energy density functional is considered as a particular case. General analytic formulas for the entrainment parameters and various corresponding effective masses are obtained. These formulas are applied to the liquid core of a neutron star composed of homogeneous plasma of nucleons, electrons, and possibly muons in beta equilibrium. |
