Hyperons in neutron stars within Eddington-inspired Born-Infeld theory of gravity

Abstract

We investigate the mass-radius relation of neutron star (NS) with hyperons inside its core by using the Eddington-inspired Born-Infeld (EiBI) theory of gravity. The equation of state of the star is calculated by using the relativistic mean field model under which the standard SU(6) prescription and hyperons potential depths are used to determine the hyperon coupling constants. We found that, for 4× 106~m2~~ ~6× 106~m2, the corresponding NS mass and radius predicted by the EiBI theory of gravity is compatible with observational constraints of maximum NS mass and radius. The corresponding value is also compatible with the range predicted by the astrophysical-cosmological constraints. We also found that the parameter could control the size and the compactness of a neutron star.