Short-range correlations effects on the deformability of neutron stars

Abstract

In the present work, we investigate the effects of short-range correlations (SRC) on the dimensionless deformability of the binary neutron system related to the GW170817 event. We implemented phenomenological SRC in a relativistic mean-field model in which the bulk parameters, namely, incompressibility (K0), effective nucleon mass ratio (m*), symmetry energy (J) and its slope (J0), are independently controlled. Our results point out that the SRC favor the model to pass through the constraints, established by the LIGO/Virgo Collaboration, on the values of 1.4 and on the 1×2 region. We also found a clear linear correlation between 1.4 with K0 and L0 (increasing dependence), and with m* and J (decreasing dependence). Finally, we also obtained compatible numbers for R1.4 (model with and without SRC) in comparison with recent data from the neutron star interior composition explorer mission.