Production and Distribution of 44Ti and 56Ni in a Three-dimensional Supernova Model Resembling Cassiopeia A

Production and Distribution of 44Ti and 56Ni in a Three-dimensional Supernova Model Resembling Cassiopeia A

The spatial and velocity distributions of nuclear species synthesized in the innermost regions of core-collapse supernovae can yield important clues about explosion asymmetries and the operation of the still disputed explosion mechanism. Recent observations of radioactive 44Ti with high-energy satel...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 842; no. 1
Main Authors: Wongwathanarat, Annop, Janka, Hans-Thomas, Müller, Ewald, Pllumbi, Else, Wanajo, Shinya
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 07-06-2017
IOP Publishing
Subjects:
Acceleration
Astrophysics
Asymmetry
Brightness distribution
Cassiopeia A
Computer simulation
Entropy
Explosions
Gamma rays
Gravitational collapse
High energy astronomy
hydrodynamics
Inclination angle
instabilities
Mapping
Morphology
Neutrinos
Neutron stars
nuclear reactions, nucleosynthesis, abundances
Recoil
Spectroscopic telescopes
Supernova
Supernovae
supernovae: general
supernovae: individual (Cas A)
Telescopes
Three dimensional models
Velocity
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Summary:The spatial and velocity distributions of nuclear species synthesized in the innermost regions of core-collapse supernovae can yield important clues about explosion asymmetries and the operation of the still disputed explosion mechanism. Recent observations of radioactive 44Ti with high-energy satellite telescopes (Nuclear Spectroscopic Telescope Array [NuSTAR], INTEGRAL) have measured gamma-ray line details, which provide direct evidence of large-scale explosion asymmetries in SN 1987A and in Cassiopeia A (Cas A) even by mapping of the spatial brightness distribution (NuSTAR). Here we discuss a 3D simulation of a neutrino-driven explosion, using a parameterized neutrino engine, whose 44Ti distribution is mostly concentrated in one hemisphere pointing opposite to the neutron star (NS) kick velocity. Both exhibit intriguing resemblance to the observed morphology of the Cas A remnant, although neither the progenitor nor the explosion was fine-tuned for a perfect match. Our results demonstrate that the asymmetries observed in this remnant can, in principle, be accounted for by a neutrino-driven explosion, and that the high 44Ti abundance in Cas A may be explained without invoking rapid rotation or a jet-driven explosion, because neutrino-driven explosions generically eject large amounts of high-entropy matter. The recoil acceleration of the NS is connected to mass ejection asymmetries and is opposite to the direction of the stronger explosion, fully compatible with the gravitational tugboat mechanism. Our results also imply that Cas A and SN 1987A could possess similarly "one-sided" Ti and Fe asymmetries, with the difference that Cas A is viewed from a direction with large inclination angle to the NS motion, whereas the NS in SN 1987A should have a dominant velocity component pointing toward us.
Bibliography:High-Energy Phenomena and Fundamental Physics
AAS03053
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/aa72de