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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Hyperon puzzle, hadron-quark crossover and massive neutron stars
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Improved leakage-equilibration-absorption scheme (ILEAS) for neutrino physics in compact object mergers
TL;DR: In this paper, the authors present a new, computationally efficient, energy-integrated approximation for neutrino effects in hot and dense astrophysical environments such as supernova cores and compact binary mergers and their remnants, termed ILEAS for Improved Leakage-Equilibration-Absorption Scheme.
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Simple recipes for compact remnant masses and natal kicks
Ilya Mandel,Bernhard Müller +1 more
TL;DR: In this paper, the authors developed analytical prescriptions for the dependence of the mass of neutron stars and black holes and the natal kicks, if any, on the pre-supernova carbon-oxygen core and helium shell masses.
Journal ArticleDOI
Equation of State and Progenitor Dependence of Stellar-mass Black Hole Formation
TL;DR: The core collapse of a massive star results in the formation of a proto-neutron star (PNS) as discussed by the authors, and if enough material is accreted onto a PNS, it will become gravitationally unstable and further collapse.
Journal ArticleDOI
A call for a paradigm shift from neutrino-driven to jet-driven core-collapse supernova mechanisms
TL;DR: In this article, the typical time-scale and energy for accelerating gas by neutrinos in core-collapse supernovae (CCSNe) was studied and it was shown that under the most extremely favorable (and probably unrealistic) conditions, the energy of the ejected mass can reach at most 5X10^50 erg.
References
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Presupernova Evolution of Differentially Rotating Massive Stars Including Magnetic Fields
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