Neutron star matter equation of state including d*-hexaquark degrees of freedom

Abstract

We present an extension of a previous work where, assuming a simple free bosonic gas supplemented with a relativistic meand field model to describe the pure nucleonic part of the EoS, we studied the consequences that the first non-trivial hexaquark d*(2380) could have on the properties of neutron stars. Compared to that exploratory work we employ a standard non-linear Walecka model including additional terms that describe the interaction of the d*(2380) di-baryon with the other particles of the system through the exchange of σ- and ω-meson fields. Our results have show that the presence of the d*(2380) leads to maximum masses compatible with the recent observations of 2M millisecond pulsars if the interaction of the d*(2380) is slightly repulsive or the d*(2380) does not interacts at all. An attractive interaction makes the equation of state too soft to be able to support a 2M neutron star whereas an extremely repulsive one induces the collapse of the neutron star into a black hole as soon as the d*(2380) appears.