Locating the QCD critical point with neutron-star observations

Abstract

We present a probabilistic model for the QCD critical endpoint (CEP) and the equation of state (EOS) at β-equilibrium, constrained by neutron-star observations. Using a hybrid framework that combines the holographic V-QCD model with an effective van der Waals description of nuclear matter, we generate a large ensemble of EOSs incorporating nuclear theory uncertainties. Constraining this ensemble with neutron-star mass-radius data and tidal deformability measurements from gravitational waves, we identify a strong first-order deconfinement transition at zero temperature, with a transition strength of nPT/n0 = 3.75+0.70-0.53 and onset density nPT/n0 = 4.9+1.33-1.17. The resulting posterior yields 95\% credible intervals for the CEP location: μcrit = 626+90-179\,MeV, Tcrit = 119+14-6\,MeV.