Physics – Nuclear Physics – Nuclear Theory
Scientific paper
2009-09-06
J.Phys.G37:075102,2010
Physics
Nuclear Physics
Nuclear Theory
18 pages, 13 figures, 5 tables, submitted to J. Phys. G
Scientific paper
10.1088/0954-3899/37/7/075102
We investigate the effects of strong magnetic fields on the equation of state of dense stellar neutrino-free and neutrino-trapped matter. Relativistic nuclear models both with constant couplings (NLW) and with density dependent parameters (DDRH) and including hyperons are considered . It is shown that at low densities neutrinos are suppressed in the presence of the magnetic field. The magnetic field reduces the strangeness fraction of neutrino-free matter and increases the strangeness fraction of neutrino-trapped matter. The mass-radius relation of stars described by these equations of state are determined. The magnetic field makes the overall equation of state stiffer and the stronger the field the larger the mass of maximum mass star and the smaller the baryon density at the center of the star. As a consequence in the presence of strong magnetic fields the possibility that a protoneutron star evolves to a blackhole is smaller.
Providencia Constança
Rabhi Abdelali
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