Slow Stable Self-bound Hybrid Star Can Relieve All Tensions

Some recent pulsar observations cannot naturally fit into the conventional picture of neutron stars: the compact objects associated with HESS J1731-347 and XTE J1814-338 have too small radii at the low-mass regime, while the secondary component of GW190814 is too massive for neutron stars to be compatible with constraints from the GW170817 event. In this study, we demonstrate that all these anomalous observations and tensions, together with other conventional ones such as recent NICER observations of PSR J0740+6620, J0030+0451, and PSR J0437-4715, can be naturally explained simultaneously by a new general type of hybrid stars that are self-bound and radially stable in the slow phase transition context, and by some subsets even in the rapid phase transition context also. As a proof of concept, we use hybrid quark stars, inverted hybrid stars, and hybrid strangeon stars as benchmark examples to explicitly demonstrate the advantage and feasibility of slow stable self-bound hybrid stars in relieving all tensions related to compact stars' masses, radii, and tidal deformabilities.