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Towards mitigation of apparent tension between nuclear physics and astrophysical observations by improved modeling of neutron star matter

B. Biswas, Prasanta Char, Rana Nandi, S. Bose

2021Physical review. D/Physical review. D.80 citationsDOIOpen Access PDF

Abstract

Observations of neutron stars (NSs) by the LIGO-Virgo and NICER collaborations have provided reasonably precise measurements of their various macroscopic properties. In this paper, we employ a Bayesian framework to combine them and place improved joint constraints on the properties of the NS equation of state (EOS). We use a hybrid EOS formulation that employs a parabolic expansion-based nuclear empirical parametrization around the nuclear saturation density augmented by a generic 3-segment piecewise polytrope model at higher densities. Within the 90% credible level this parametrization predicts ${R}_{1.4}={12.57}_{\ensuremath{-}0.92}^{+0.73}\text{ }\text{ }\mathrm{km}$ and ${\mathrm{\ensuremath{\Lambda}}}_{1.4}={550}_{\ensuremath{-}225}^{+223}$ for the radius and dimensionless tidal deformability, respectively, of a $1.4\text{ }\text{ }{M}_{\ensuremath{\bigodot}}$ NS. Finally, we show how the construction of the full NS EOS based solely on the nuclear empirical parameters at saturation density leads to certain tension with the astrophysical data, and how the hybrid approach provides a resolution to it.

Topics & Concepts

Dimensionless quantityPhysicsNeutron starEquation of statePolytropeSaturation (graph theory)LIGONuclear dataRADIUSPiecewiseNuclear matterAstrophysicsComputational physicsNeutronStatistical physicsNuclear physicsMechanicsPolytropic processGravitational waveThermodynamicsMathematicsComputer securityComputer scienceCombinatoricsMathematical analysisNucleonPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeGeophysics and Gravity Measurements
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