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Simulating bulk viscosity in neutron stars. II. Evolution in spherical symmetry

Giovanni Camelio, Lorenzo Gavassino, Marco Antonelli, Sebastiano Bernuzzi, B. Haskell

2023Physical review. D/Physical review. D.29 citationsDOIOpen Access PDF

Abstract

Out-of-equilibrium reactions between different particle species are the main processes contributing to bulk viscosity in neutron stars. In this work, we numerically compare three different approaches to the modeling of bulk viscosity: the multicomponent fluid with reacting particle species and two bulk stress formalism based on the M\"uller-Israel-Stewart theory, namely the Hiscock-Lindblom and the Maxwell-Cattaneo models, whose flux-conservative formulation in radial gauge-polar slicing coordinates and spherical symmetry is derived in a companion paper. To our knowledge, this is the first time that a neutron star is simulated with the complete Hiscock-Lindblom model of bulk viscosity. We find that the Hiscock-Lindblom and Maxwell-Cattaneo models are good approximations of the multicomponent fluid for small perturbations and when the nonequilibrium equation of state of the fluid depends on only one independent particle fraction. For more than one independent particle fraction and for large perturbations, the bulk stress approximation is still valid but less accurate. In addition, we include the energy loss due to the luminosity of the reactions in the bulk stress formulation. We find that the energy loss due to bulk viscosity has a larger effect on the dynamics than the bulk stress or the variation in particle composition per se. The new one-dimensional, general-relativistic hydrodynamic code developed for this work, hydro-bulk-1D, is publicly available.

Topics & Concepts

ViscosityVolume viscosityPhysicsNeutron starNon-equilibrium thermodynamicsWork (physics)Circular symmetryClassical mechanicsEquation of stateSymmetry (geometry)MechanicsThermodynamicsAstrophysicsMathematicsGeometryPulsars and Gravitational Waves ResearchHigh-pressure geophysics and materialsGeophysics and Gravity Measurements
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