scholarly journals Time dependent signatures of core-collapse supernova neutrinos at HALO

2021 ◽  
Vol 103 (4) ◽  
Author(s):  
B. Ekinci ◽  
Y. Pehlivan ◽  
Amol V. Patwardhan
Keyword(s):  
Time Dependent ◽  
Core Collapse ◽  
Core Collapse Supernova ◽  
Supernova Neutrinos

scholarly journals Core-collapse supernova neutrinos and neutrino properties

2008 ◽  
Author(s):  
J. Gava ◽  
C. Volpe ◽  
Joseph Cugnon ◽  
Lansberg Jean-Philippe ◽  
Nicolas Matagne
Keyword(s):  
Core Collapse ◽  
Core Collapse Supernova ◽  
Supernova Neutrinos

scholarly journals Sensitivity of future liquid argon dark matter search experiments to core-collapse supernova neutrinos

2021 ◽  
Vol 2021 (03) ◽  
pp. 043
Author(s):  
P. Agnes ◽  
S. Albergo ◽  
I.F.M. Albuquerque ◽  
T. Alexander ◽  
A. Alici ◽  
...  
Keyword(s):  
Dark Matter ◽  
Liquid Argon ◽  
Core Collapse ◽  
Dark Matter Search ◽  
Core Collapse Supernova ◽  
Supernova Neutrinos

scholarly journals Two‐dimensional, Time‐dependent, Multigroup, Multiangle Radiation Hydrodynamics Test Simulation in the Core‐Collapse Supernova Context

2004 ◽  
Vol 609 (1) ◽  
pp. 277-287 ◽  
Author(s):  
Eli Livne ◽  
Adam Burrows ◽  
Rolf Walder ◽  
Itamar Lichtenstadt ◽  
Todd A. Thompson
Keyword(s):  
Time Dependent ◽  
Radiation Hydrodynamics ◽  
Core Collapse ◽  
Two Dimensional ◽  
Core Collapse Supernova ◽  
The Core

scholarly journals Plerion model of the X-ray plateau in short gamma-ray bursts

2019 ◽  
Vol 487 (4) ◽  
pp. 5010-5018 ◽  
Author(s):  
L C Strang ◽  
A Melatos
Keyword(s):  
Light Curve ◽  
Supernova Remnants ◽  
Gamma Ray ◽  
Electron Energy Spectrum ◽  
Gamma Ray Bursts ◽  
Time Dependent ◽  
Core Collapse ◽  
X Ray ◽  
Surface Magnetic Field ◽  
Core Collapse Supernova

Abstract Many short gamma-ray bursts (sGRBs) exhibit a prolonged plateau in the X-ray light curve following the main burst. It is shown that an X-ray plateau at the observed luminosity emerges naturally from a plerion-like model of the sGRB remnant, in which the magnetized, relativistic wind of a millisecond magnetar injects shock-accelerated electrons into a cavity confined by the sGRB blast wave. A geometry-dependent fraction of the plerionic radiation is also intercepted and reprocessed by the optically thick merger ejecta. The relative contributions of the plerion and ejecta to the composite X-ray light curve are estimated approximately with the aid of established ejecta models. The plerionic component of the electron energy spectrum is evolved under the action of time-dependent, power-law injection and adiabatic and synchrotron cooling in order to calculate the X-ray light curve analytically. The model yields an anticorrelation between the luminosity and duration of the plateau as well as a sudden cut-off in the X-ray flux, if the decelerating magnetar collapses to form a black hole. Both features are broadly consistent with the data and can be related to the surface magnetic field of the magnetar and its angular velocity at birth. The analogy with core-collapse supernova remnants is discussed briefly.

scholarly journals Deep learning for core-collapse supernova detection

2021 ◽  
Vol 103 (6) ◽  
Author(s):  
M. López ◽  
I. Di Palma ◽  
M. Drago ◽  
P. Cerdá-Durán ◽  
F. Ricci
Keyword(s):  
Deep Learning ◽  
Core Collapse ◽  
Core Collapse Supernova

High-z core-collapse supernova survey with shock breakout

2012 ◽  
Author(s):  
Nozomu Tominaga ◽  
Tomoki Morokuma ◽  
Sergei I. Blinnikov
Keyword(s):  
Core Collapse ◽  
Core Collapse Supernova

scholarly journals Core Collapse Supernova Models and Nucleosynthesis

2013 ◽  
Vol 9 (S296) ◽  
pp. 27-36
Author(s):  
Ken'ichi Nomoto
Keyword(s):  
Big Bang ◽  
Elemental Abundance ◽  
Core Collapse ◽  
Solar Abundance ◽  
First Stars ◽  
Abundance Pattern ◽  
Core Collapse Supernova ◽  
Abundance Patterns ◽  
Supernova Explosions ◽  
The Big Bang

AbstractAfter the Big Bang, production of heavy elements in the early Universe takes place in the first stars and their supernova explosions. The nature of the first supernovae, however, has not been well understood. The signature of nucleosynthesis yields of the first supernovae can be seen in the elemental abundance patterns observed in extremely metal-poor stars. Interestingly, those abundance patterns show some peculiarities relative to the solar abundance pattern, which should provide important clues to understanding the nature of early generations of supernovae. We review the recent results of the nucleosynthesis yields of massive stars. We examine how those yields are affected by some hydrodynamical effects during the supernova explosions, namely, explosion energies from those of hypernovae to faint supernovae, mixing and fallback of processed materials, asphericity, etc. Those parameters in the supernova nucleosynthesis models are constrained from observational data of supernovae and metal-poor stars.

scholarly journals A shallow water analogue of asymmetric core-collapse, and neutron star kick/spin

2011 ◽  
Vol 7 (S279) ◽  
pp. 134-137
Author(s):  
Thierry Foglizzo ◽  
Frédéric Masset ◽  
Jérôme Guilet ◽  
Gilles Durand
Keyword(s):  
Neutron Star ◽  
Shallow Water ◽  
Acoustic Waves ◽  
Large Scale ◽  
Massive Stars ◽  
Core Collapse ◽  
Hydraulic Jumps ◽  
Core Collapse Supernova ◽  
Accretion Shock

AbstractMassive stars end their life with the gravitational collapse of their core and the formation of a neutron star. Their explosion as a supernova depends on the revival of a spherical accretion shock, located in the inner 200km and stalled during a few hundred milliseconds. Numerical simulations suggest that the large scale asymmetry of the neutrino-driven explosion is induced by a hydrodynamical instability named SASI. Its non radial character is able to influence the kick and the spin of the resulting neutron star. The SWASI experiment is a simple shallow water analog of SASI, where the role of acoustic waves and shocks is played by surface waves and hydraulic jumps. Distances in the experiment are scaled down by a factor one million, and time is slower by a factor one hundred. This experiment is designed to illustrate the asymmetric nature of core-collapse supernova.

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