Properties of First-Order Hadron-Quark Phase Transition from Inverting Neutron Star Observables

Abstract

By inverting the observational data of several neutron star observables in the three dimensional parameter space of the constant speed of sound (CSS) model while fixing all hadronic Equation of State parameters at their currently known most probable values, we constrain the three parameters of the CSS model and their correlations. Using two lower radius limits of R2.01=11.41 km and R2.01=12.2 km for PSR J0740+6620 obtained from two independent analyses using different approaches by the Neutron Star Interior Composition Explorer (NICER) Collaboration, the speed of sound squared c QM2 in quark matter is found to have a lower limit of 0.35 and 0.43 in unit of c2, respectively, above its conformal limit of c QM2<1/3. An approximately linear correlation between the first-order hadron-quark transition density t and its strength is found. Moreover, the presence of twin star is deemed improbable by the present work.