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Coupling neutrino oscillations and simulations of core-collapse supernovae

Charles J. Stapleford, Carla Fröhlich, James P. Kneller

2020Physical review. D/Physical review. D.30 citationsDOIOpen Access PDF

Abstract

At the present time even the most sophisticated, multidimensional simulations of core-collapse supernovae do not (self-consistently) include neutrino flavor transformation. This physics is missing despite the importance of neutrinos in the core-collapse explosion paradigm. Because of this dependence, any flavor transformation that occurs in the region between the protoneutron star and the shock could result in major effects upon the dynamics of the explosion. We present the first hydrodynamic core-collapse supernova simulation which simultaneously includes flavor transformation of the free-streaming neutrinos in the neutrino transport. These oscillation calculations are dynamically updated and evolve self-consistently alongside the hydrodynamics. Using a $M=20\text{ }\text{ }{M}_{\ensuremath{\bigodot}}$ progenitor, we find that while the oscillations have an effect on the neutrino emission and the heating rates, flavor transformation alone does not lead to a successful explosion of this progenitor in spherical symmetry.

Topics & Concepts

NeutrinoPhysicsSupernovaNeutrino oscillationType II supernovaNeutron starShock (circulatory)Oscillation (cell signaling)Symmetry (geometry)Coupling (piping)AstrophysicsParticle physicsGeometryMathematicsMechanical engineeringBiologyMedicineEngineeringGeneticsInternal medicineNeutrino Physics ResearchAstrophysics and Cosmic PhenomenaParticle physics theoretical and experimental studies
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