Litcius/Paper detail

Ranking Love Numbers for the Neutron Star Equation of State: The Need for Third-Generation Detectors

Costantino Pacilio, Andrea Maselli, Margherita Fasano, Paolo Pani

2022Physical Review Letters52 citationsDOIOpen Access PDF

Abstract

Gravitational-wave measurements of the tidal deformability in neutron-star binary coalescences can be used to infer the still unknown equation of state (EOS) of dense matter above the nuclear saturation density. By employing a Bayesian-ranking test, we quantify the ability of current and future gravitational-wave observations to discriminate among families of nuclear-physics based EOS which differ in particle content and ab initio microscopic calculations. While the constraining power of GW170817 is limited, we show that even twenty coalescences detected by LIGO-Virgo at design sensitivity are not enough to discriminate between EOS with similar softness but distinct microphysics. However, just a single detection with a third-generation detector such as the Einstein Telescope or Cosmic Explorer will rule out several families of EOS with very strong statistical significance and can discriminate among models which feature similar softness, hence, constraining the properties of nuclear matter to unprecedented levels.

Topics & Concepts

PhysicsNeutron starEquation of stateBinary numberDetectorCOSMIC cancer databaseStatistical physicsAstrophysicsNuclear matterSensitivity (control systems)Saturation (graph theory)Statistical hypothesis testingRanking (information retrieval)NeutronStatistical modelCosmic rayTheoretical physicsFeature (linguistics)Dark matterStatistical powerEinsteinComputational physicsBinary starStatistical mechanicsBayesian probabilityProbabilistic logicParticle (ecology)Einstein TelescopePulsars and Gravitational Waves ResearchScientific Research and DiscoveriesGamma-ray bursts and supernovae