Explosion Mechanisms of Core-Collapse Supernovae
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TLDR
The neutrino-heating mechanism, aided by nonradial flows, drives explosions, albeit low-energy ones, of ONeMg-core and some Fe-core progenitors as discussed by the authors.Abstract:
Supernova theory, numerical and analytic, has made remarkable progress in the past decade. This progress was made possible by more sophisticated simulation tools, especially for neutrino transport, improved microphysics, and deeper insights into the role of hydrodynamic instabilities. Violent, large-scale nonradial mass motions are generic in supernova cores. The neutrino-heating mechanism, aided by nonradial flows, drives explosions, albeit low-energy ones, of ONeMg-core and some Fe-core progenitors. The characteristics of the neutrino emission from new-born neutron stars were revised, new features of the gravitational-wave signals were discovered, our notion of supernova nucleosynthesis was shattered, and our understanding of pulsar kicks and explosion asymmetries was significantly improved. But simulations also suggest that neutrino-powered explosions might not explain the most energetic supernovae and hypernovae, which seem to demand magnetorotational driving. Now that modeling is being advanced from two to three dimensions, more realism, new perspectives, and hopefully answers to long-standing questions are coming into reach.read more
Citations
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A successful 3D core-collapse supernova explosion model
TL;DR: In this article, the authors present the results of their three-dimensional, multi-group, mult-neutrino-species radiation/hydrodynamic simulation using the state-of-the-art code F{\sc{ornax}} of the terminal dynamics of the core of a non-rotating 16-M$_{\odot}$ stellar progenitor.
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Three-dimensional simulations of rapidly rotating core-collapse supernovae: finding a neutrino-powered explosion aided by non-axisymmetric flows
TL;DR: In this paper, a series of three-dimensional rotational core-collapse simulations for $11.2$ and 27 $M/odot} stars employing neutrino transport scheme by the isotropic diffusion source approximation is presented.
Journal ArticleDOI
A new multidimensional, energy-dependent two-moment transport code for neutrino-hydrodynamics
TL;DR: The new code ALCAR developed to model multidimensional, multi energy-group neutrino transport in the context of supernovae and neutron-star mergers is presented, which is significantly more efficient than a multiddimensional solver of the Boltzmann equation and more accurate and consistent than the flux-limited diffusion method.
Journal ArticleDOI
An Open-source Neutrino Radiation Hydrodynamics Code for Core-collapse Supernovae
TL;DR: In this article, an open-source neutrino interaction library NuLib is proposed to describe neutrinos' interaction coefficients in two-dimensional and three-dimensional spaces, respectively.
Journal ArticleDOI
The dynamics of neutrino-driven supernova explosions after shock revival in 2D and 3D
TL;DR: In this paper, the growth of the explosion energy after shock revival in neutrino-driven explosions in two and three dimensions (2D/3D) using multi-group neutrinos hydrodynamics simulations of an $11.2 M_\odot$ star was studied.
References
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