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New Covariant Density Functionals of Nuclear Matter for Compact Star Simulations

Jia Jie Li, Armen Sedrakian

2023The Astrophysical Journal16 citationsDOIOpen Access PDF

Abstract

Abstract We generate three families of extended covariant density functionals of nuclear matter that have varying slope of symmetry energy and skewness at nuclear saturation density, but otherwise share the same basic parameters (symmetry energy, compressibility, saturation parameters, etc.) with the standard DDME2, DD2, and MPE functionals. Tables of the parameters of these new density functionals are given, which can be straightforwardly used in DDME2, DD2, and MPE parameterization-based codes. Furthermore, we provide tables of a large number of equations of state (81 for each family) that can be used in astrophysical simulations to assess the impact of variations of the not-well-known slope of symmetry energy and skewness of nuclear systems on the astrophysics of compact objects. We also provide tables of computed integral parameters (mass, radius, and tidal deformability) that can be used, e.g., for modeling gravitational waveforms. Finally, for the extended DDME2-based parameterization, we implement a first-order phase transition to quark matter to obtain a family of equations of state that accommodates a phase transition to quark matter. Analogous tables of the equations of state and integral parameters are provided for this case as well.

Topics & Concepts

PhysicsNuclear matterCovariant transformationEquation of stateSkewnessStrange matterPhase transitionSaturation (graph theory)Symmetry (geometry)Statistical physicsMathematical physicsQuarkQuantum mechanicsParticle physicsGeometryNucleonStatisticsMathematicsCombinatoricsPulsars and Gravitational Waves ResearchNuclear physics research studiesGamma-ray bursts and supernovae
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