Litcius/Paper detail

Resolution Study for Three-dimensional Supernova Simulations with the Prometheus-Vertex Code

Tobias Melson, Daniel Kresse, Hans-Thomas Janka

2020The Astrophysical Journal35 citationsDOIOpen Access PDF

Abstract

Abstract We present a carefully designed, systematic study of the angular resolution dependence of simulations with the P rometheus -V ertex neutrino-hydrodynamics code. Employing a simplified neutrino heating–cooling scheme in the P rometheus hydrodynamics module allows us to sample the angular resolution between 4° and 0.°5. With a newly implemented static mesh refinement (SMR) technique on the Yin-Yang grid, the angular coordinates can be refined in concentric shells, compensating for the diverging structure of the spherical grid. In contrast to previous studies with P rometheus and other codes, we find that higher angular resolution and therefore lower numerical viscosity provides more favorable explosion conditions and faster shock expansion. We discuss the possible reasons for the discrepant results. The overall dynamics seem to converge at a resolution of about 1°. Applying the SMR setup to marginally exploding progenitors is disadvantageous for the shock expansion, however, because the kinetic energy of downflows is dissipated to internal energy at resolution interfaces, leading to a loss of turbulent pressure support and a steeper temperature gradient. We also present a way to estimate the numerical viscosity on grounds of the measured turbulent kinetic energy spectrum, leading to smaller values that are better compatible with the flow behavior witnessed in our simulations than results following calculations in previous literature. Interestingly, the numerical Reynolds numbers in the turbulent, neutrino-heated postshock layer (some 10 to several hundred) are in the ballpark of expected neutrino drag effects on the relevant length scales. We provide a formal derivation and quantitative assessment of the neutrino drag terms in an appendix.

Topics & Concepts

PhysicsDragTurbulenceNeutrinoAngular resolution (graph drawing)SupernovaComputational physicsShock (circulatory)MechanicsReynolds numberResolution (logic)Angular momentumAstrophysicsRADIUSKinetic energyClassical mechanicsAngular velocityFlow (mathematics)Reynolds stressLaminar flowEnergy (signal processing)Image resolutionShock waveStatistical physicsFluid dynamicsNumerical analysisViscosityNeutrino Physics ResearchAstrophysics and Cosmic PhenomenaGamma-ray bursts and supernovae