GW190814: Circumstantial Evidence for Up-Down Quark Star

Abstract

Within a confining quark matter model which considers phenomenologically the quark confinement and asymptotic freedom as well as the chiral symmetry restoration and quark deconfinement at high baryon density, we find that if the up-down quark matter (udQM) is more stable than nuclear matter and strange quark matter (SQM), the maximum mass of static quark stars with udQM is 2.87M under agreement with both the constraints on star tidal deformability from gravitational wave signal GW170817 and the mass-radius of PSR J0030+0451 and PSR J0740+6620 measured by NICER. In contrast, the conventional strange quark star with the SQM that is more stable than nuclear matter while the nuclear matter is more stable than udQM, has a maximum static mass of only 1.87M and its radius significantly deviates from NICER's constraint. Our results thus provide circumstantial evidence suggesting the recently reported GW190814's secondary component with a mass of 2.59+0.08-0.09M could be an up-down quark star.