2016A&A...589A..38B


C.D.S. - SIMBAD4 rel 1.7 - 2020.08.14CEST02:24:23

2016A&A...589A..38B - Astronomy and Astrophysics, volume 589A, 38-38 (2016/5-1)

Explosion of white dwarfs harboring hybrid CONe cores.

BRAVO E., GIL-PONS P., GUTIERREZ J.L. and DOHERTY C.L.

Abstract (from CDS):

Recently, it has been found that off-center carbon burning in a subset of intermediate-mass stars does not propagate all the way to the center, resulting in a class of hybrid CONe cores. The implications of a significant presence of carbon in the resulting massive degenerate cores have not been thoroughly explored so far. Here, we consider the possibility that stars hosting these hybrid CONe cores might belong to a close binary system and, eventually, become white dwarfs accreting from a nondegenerate companion at rates leading to a supernova explosion. We computed the hydrodynamical phase of the explosion of Chandrasekhar-mass white dwarfs harboring hybrid cores, assuming that the explosion starts at the center; this explosion occurs either as a detonation, as may be expected in some degenerate merging scenarios, or as a deflagration that afterward transitions into a delayed detonation. We assume these hybrid cores are made of a central CO volume, of mass MCO, surrounded by an ONe shell. We show that, in the case of a pure detonation, a medium-sized carbon-rich region, MCO (<0.4M), results in the ejection of a small fraction of the mantle while leaving a massive bound remnant. Part of this remnant is made of the products of the detonation, that is, Fe-group nuclei, but they are buried in its inner regions unless convection is activated during the ensuing cooling and shrinking phase of the remnant. In contrast, and somehow paradoxically, delayed detonations do not leave remnants other than for the minimum MCO we explored of MCO=0.2M, and even in this case the remnant is as small as 0.13M. The ejecta produced by these delayed detonations are characterized by slightly smaller masses of 56Ni and substantially smaller kinetic energies than the ejecta obtained for a delayed detonation of a "normal" CO white dwarf. The optical emission expected from these explosions most likely do not match the observational properties of typical Type Ia supernovae, although they make interesting candidates for the subluminous class of SN2002cx-like or SNIax.

Abstract Copyright: © ESO, 2016

Journal keyword(s): stars: evolution - supernovae: general - white dwarfs - nuclear reactions, nucleosynthesis, abundances - hydrodynamics

Simbad objects: 9

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Number of rows : 9

N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2020
#notes
1 SN 2007qd SN* 02 09 33.56 -01 00 02.2           SNIapec 34 1
2 SN 2005ek SN* 03 05 48.96 +36 46 10.6     17.5     SNIc: 52 1
3 SN 2012Z SN* 03 22 05.39641 -15 23 14.9390           SNIax 78 1
4 SN 2008ge SN* 04 08 24.68 -47 53 47.4           SNIapec 50 1
5 SN 2010X SN* 04 48 27.90 +73 28 14.8           SNIc 62 1
6 SN 1994ae SN* 10 47 01.94 +17 16 30.8   13.20 12.99     SNIa 151 1
7 SN 1991bg SN* 12 25 03.70 +12 52 15.6   14.75 14.3     SNIapec 526 1
8 SN 2002cx SN* 13 13 49.72 +06 57 31.9   17.68       SNIapec 194 1
9 SN 2008ha SN* 23 34 52.69 +18 13 35.4           SNIax 150 1

    Equat.    Gal    SGal    Ecl

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2020.08.14-02:24:23

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