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| Query : 2016A&A...593A..36C |
2016A&A...593A..36C - Astronomy and Astrophysics, volume 593A, 36-36 (2016/9-1)
Constraints on CEMP-no progenitors from nuclear astrophysics.
CHOPLIN A., MAEDER A., MEYNET G. and CHIAPPINI C.
Abstract (from CDS):
Context. The CEMP-no stars are long-lived small mass stars presenting a very low iron content and overabundances of carbon with no sign or only very weak signs of s- or r-elements. Although the origin of this abundance pattern is still a matter of debate, it was very likely inherited from a previous massive star, which we call the source star.
Aims. We rely on a recent classification of CEMP-no stars arguing that some of them are made of a material processed by hydrogen burning that was enriched in products of helium burning during the nuclear life of the source star. We examine the possibility of forming CEMP-no stars with this material.
Methods. We study the nucleosynthesis of the CNO cycle and the Ne-Na Mg-Al chains in a hydrogen burning single zone while injecting the helium burning products 12C, 16O, 22Ne, and 26Mg. We investigate the impact of changing density, temperature and the injection rate. The nuclear reaction rates involving the creation and destruction of 27Al are also examined.
Results. 14N, 23Na, 24Mg, and 27Al are formed when injecting 12C, 16O, 22Ne, and 26Mg in the hydrogen burning zone. The 12C/13C ratio is constant under various conditions in the hydrogen burning zone. The predicted [Al/Fe] ratio varies up to ∼2dex depending on the prescription used for the reaction rates involving 27Al.
Conclusions. The experiments we carried out support the view that some CEMP-no stars are made of a material processed by hydrogen burning that comes from a massive star experiencing mild to strong rotational mixing. During its burning, this material was likely enriched in helium burning products. No material coming from the carbon-oxygen rich core of the source star should be added to form the daughter star, otherwise the 12C/13C ratio would be largely above the observed range of values.
Aims. We rely on a recent classification of CEMP-no stars arguing that some of them are made of a material processed by hydrogen burning that was enriched in products of helium burning during the nuclear life of the source star. We examine the possibility of forming CEMP-no stars with this material.
Methods. We study the nucleosynthesis of the CNO cycle and the Ne-Na Mg-Al chains in a hydrogen burning single zone while injecting the helium burning products 12C, 16O, 22Ne, and 26Mg. We investigate the impact of changing density, temperature and the injection rate. The nuclear reaction rates involving the creation and destruction of 27Al are also examined.
Results. 14N, 23Na, 24Mg, and 27Al are formed when injecting 12C, 16O, 22Ne, and 26Mg in the hydrogen burning zone. The 12C/13C ratio is constant under various conditions in the hydrogen burning zone. The predicted [Al/Fe] ratio varies up to ∼2dex depending on the prescription used for the reaction rates involving 27Al.
Conclusions. The experiments we carried out support the view that some CEMP-no stars are made of a material processed by hydrogen burning that comes from a massive star experiencing mild to strong rotational mixing. During its burning, this material was likely enriched in helium burning products. No material coming from the carbon-oxygen rich core of the source star should be added to form the daughter star, otherwise the 12C/13C ratio would be largely above the observed range of values.
Abstract Copyright: © ESO, 2016
Journal keyword(s): nuclear reactions, nucleosynthesis, abundances - stars: chemically peculiar - stars: abundances
Simbad objects: 14
| Number of rows : 14 |
| N | Identifier | Otype |
ICRS (J2000) RA |
ICRS (J2000) DEC |
Mag U | Mag B | Mag V | Mag R | Mag I | Sp type |
#ref
1850 - 2024 |
#notes |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 | HE 0057-5959 | Pe* | 00 59 53.9857261680 | -59 43 29.745171408 | 16.4 | CEMP-no | 32 | 0 | ||||
| 2 | HE 0107-5240 | Pe* | 01 09 29.1555567432 | -52 24 34.202039148 | 15.89 | 15.07 | 15.10 | 14.283 | CEMP-no | 244 | 0 | |
| 3 | BPS CS 22958-0042 | Pe* | 02 01 07.4297976264 | -57 16 58.850811840 | 14.037 | 14.52 | 14.222 | 13.902 | CEMP-no | 38 | 0 | |
| 4 | UCAC4 115-002803 | Pe* | 03 13 00.3747928560 | -67 08 39.336144504 | 15.442 | 14.753 | 14.639 | CEMP-no | 109 | 0 | ||
| 5 | HE 1300+0157 | Pe* | 13 02 56.2443901392 | +01 41 52.080457056 | 14.536 | 14.11 | 13.678 | 13.261 | CEMP-no | 44 | 0 | |
| 6 | HE 1310-0536 | Pe* | 13 13 31.1856437856 | -05 52 12.533926152 | 15.055 | 14.347 | 13.829 | CEMP-no | 30 | 0 | ||
| 7 | HE 1327-2326 | Pe* | 13 30 05.9394958608 | -23 41 49.699340844 | 13.761 | 14.01 | 13.55 | 13.50 | 12.803 | CEMP-no | 245 | 0 |
| 8 | HE 1410+0213 | Pe* | 14 13 06.5623389120 | +01 59 21.911258400 | 14.29 | 13.25 | 12.734 | 12.297 | CEMP-no | 23 | 0 | |
| 9 | 2MASS J14215106-1338135 | * | 14 21 51.0678681888 | -13 38 13.410150324 | 14.802 | 14.708 | 14.176 | 13.713 | ~ | 10 | 0 | |
| 10 | BPS CS 29498-0043 | Pe* | 21 03 52.1197651440 | -29 42 50.344181712 | 14.8 | 13.72 | 13.013 | 12.406 | CEMP-no | 93 | 0 | |
| 11 | BPS CS 30322-0023 | Pe* | 21 30 32.1818994960 | -46 16 24.614480388 | 13.447 | 12.167 | 11.902 | 10.908 | CEMP-s | 57 | 0 | |
| 12 | BPS CS 22945-0017 | Pe* | 23 20 55.6277405064 | -63 15 36.786796848 | 14.83 | 14.44 | 14.50 | ~ | 25 | 0 | ||
| 13 | HE 2323-0256 | Pe* | 23 26 29.8073738880 | -02 39 58.036383180 | 15.12 | 14.36 | 13.358 | CEMP-no | 180 | 0 | ||
| 14 | HE 2331-7155 | Pe* | 23 34 36.1728318744 | -71 38 50.939495232 | 14.73 | 13.82 | CEMP-no | 10 | 0 |
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