Total gravitational mass of the Galactic Double Neutron Star systems: evidence for a bimodal distribution

Abstract

So far, in total 15 double neutron star systems (DNSs) with a reliable measurement of the total gravitational mass (M T) have been detected in the Galaxy. In this work we study the distribution of M T. The data prefer the double Gaussian distribution over a single Gaussian distribution and the low and high mass populations center at M T 2.58M and 2.72M, respectively. The progenitor stars of GW170817 have a M T=2.74+0.04-0.01M, falling into the high mass population. With a local neutron star merger rate of 103~ Gpc-3~yr-1, supposing the M T of those merging neutron stars also follow the double Gaussian distribution, the upcoming runs of the advanced LIGO/Virgo will soon detect some events with a M T 2.6M that can effectively probe the equation of state of the neutron stars and the distribution function is expected to be reliably reconstructed in the next decade.