Litcius/Paper detail

Multi-frequency General Relativistic Radiation-hydrodynamics with M<sub>1</sub> Closure

Peter Anninos, P. Chris Fragile

2020The Astrophysical Journal26 citationsDOIOpen Access PDF

Abstract

Abstract We report on recent upgrades to our general relativistic radiation-magnetohydrodynamics code, Cosmos++ , which expands the two-moment, M 1 , radiation treatment from gray to multi-frequency transport, including Doppler and gravitational frequency shifts. The solver accommodates either photon (Bose–Einstein) or neutrino (Fermi–Dirac) statistical distribution functions with absorption, emission, and elastic scattering processes. An implicit scheme is implemented to simultaneously solve the primitive inversion problem together with the radiation–matter coupling source terms, providing stability over a broad range of opacities and optical depths where the interaction terms can be stiff. We discuss our formulations and numerical methods, and validate our methods against a wide variety of test problems spanning optically thin to thick regimes in flat, weakly curved, and strongly curved spacetimes.

Topics & Concepts

PhysicsSolverClassical mechanicsScatteringGravitational waveDoppler effectPhotonGravitationGravitational lensNeutrinoRadiationClosure (psychology)Coupling (piping)Range (aeronautics)Numerical analysisComputational physicsStability (learning theory)Numerical stabilityAstrophysical jetVariety (cybernetics)AstrophysicsInversion (geology)Radiative transferElectromagnetic radiationDistribution (mathematics)Gravitational collapseTheoretical physicsMechanicsStatistical physicsGeneral relativityPulsars and Gravitational Waves ResearchHigh-Energy Particle Collisions ResearchAstrophysical Phenomena and Observations