2009ApJ...695..208W -
Astrophys. J., 695, 208-220 (2009/April-2)
Nucleosynthesis in electron capture supernovae of asymptotic giant branch stars.
WANAJO S., NOMOTO K., JANKA H.-T., KITAURA F.S. and MULLER B.
Abstract (from CDS):
We examine nucleosynthesis in the electron capture supernovae of progenitor asymptotic giant branch stars with an O-Ne-Mg core (with the initial stellar mass of 8.8 M☉). Thermodynamic trajectories for the first 810 ms after core bounce are taken from a recent state-of-the-art hydrodynamic simulation. The presented nucleosynthesis results are characterized by a number of distinct features that are not shared with those of other supernovae from the collapse of stars with iron core (with initial stellar masses of more than 10 M☉). First is the small amount of 56Ni (0.002-0.004 M☉) in the ejecta, which can be an explanation for the observed properties of faint supernovae such as SNe 2008S and 1997D. In addition, the large Ni/Fe ratio is in reasonable agreement with the spectroscopic result of the Crab nebula (the relic of SN 1054). Second is the large production of 64Zn, 70Ge, light p-nuclei (74Se, 78Kr, 84Sr, and 92Mo), and in particular, 90Zr, which originates from the low Ye(0.46-0.49, the number of electrons per nucleon) ejecta. We find, however, that only a 1%-2% increase of the minimum Yemoderates the overproduction of 90Zr. In contrast, the production of 64Zn is fairly robust against a small variation of Ye. This provides the upper limit of the occurrence of this type of events to be about 30% of all core-collapse supernovae.
Abstract Copyright:
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Journal keyword(s):
nuclear reactions, nucleosynthesis, abundances - stars: abundances - supernovae: general - supernovae: individual (SN 1054, SN 1997D, SN 2008S)
Simbad objects:
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