Neutrino-driven Convection in Core-collapse Supernovae: High-resolution Simulations
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Date
2016-03
Authors
Radice, David
Ott, Christian D.
Abdikamalov, Ernazar
Couch, Sean M.
Haas, Roland
Schnetter, Erik
Journal Title
Journal ISSN
Volume Title
Publisher
American Astronomical Society
Abstract
We present results from high-resolution semiglobal simulations of neutrino-driven convection in core-collapse supernovae. We employ an idealized setup with parameterized neutrino heating/cooling and nuclear dissociation at the shock front. We study the internal dynamics of neutrino-driven convection and its role in redistributing energy and momentum through the gain region. We find that even if buoyant plumes are able to locally transfer heat up to the shock, convection is not able to create a net positive energy flux and overcome the downward transport of energy from the accretion flow. Turbulent convection does, however, provide a significant effective pressure support to the accretion flow as it favors the accumulation of energy, mass, and momentum in the gain region. We derive an approximate equation that is able to explain and predict the shock evolution in terms of integrals of quantities such as the turbulent pressure in the gain region or the effects of nonradial motion of the fluid. We use this relation as a way to quantify the role of turbulence in the dynamics of the accretion shock. Finally, we investigate the effects of grid resolution, which we change by a factor of 20 between the lowest and highest resolution. Our results show that the shallow slopes of the turbulent kinetic energy spectra reported in previous studies are a numerical artifact. Kolmogorov scaling is progressively recovered as the resolution is increased.
Description
Keywords
proto-neutron star, PNS, core-collapse supernovae, CCSNe, Neutrino-driven Convection Model, Research Subject Categories::TECHNOLOGY, Research Subject Categories::NATURAL SCIENCES::Physics
Citation
Radice, D., Ott, C. D., Abdikamalov, E., Couch, S. M., Haas, R., & Schnetter, E. (2016). NEUTRINO-DRIVEN CONVECTION IN CORE-COLLAPSE SUPERNOVAE: HIGH-RESOLUTION SIMULATIONS. The Astrophysical Journal, 820(1), 76. https://doi.org/10.3847/0004-637x/820/1/76