Asymmetric Nuclear Matter and Neutron Star Properties in Relativistic ab initio Theory in the Full Dirac Space
Abstract
The long-standing controversy about the isospin dependence of the effective Dirac mass in ab initio calculations of asymmetric nuclear matter is clarified by solving the relativistic Brueckner-Hartree-Fock equations in the full Dirac space. The symmetry energy and its slope parameter at the saturation density are Esym(0)=33.1 MeV and L=65.2 MeV, in agreement with empirical and experimental values. Further applications predict the neutron star radius R1.4M≈ 12 km and the maximum mass of a neutron star Mmax≤ 2.4M.
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