Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-03-21
Astron.Astrophys. 420 (2004) L1-L4
Astronomy and Astrophysics
Astrophysics
5 pages, 4 figures, resolution of Figs. 1 and 2 is reduced, submitted to A&A Letters
Scientific paper
10.1051/0004-6361:20040135
One of the major challenges for theoretical modeling of Type Ia supernova explosions is to explain the diversity of these events and the empirically established correlation between their peak luminosity and light curve shape. In the framework of the so-called Chandrasekhar mass models, the progenitor's carbon-to-oxygen ratio has been suggested to be a principal source of peak luminosity variations due to a variation in the production of radioactive $^{56}$Ni during the explosion. The underlying idea is that an enhanced carbon mass fraction should result in a more vigorous explosion since here the energy release from nuclear reactions is increased. It was suspected that this would produce a higher amount of $^{56}$Ni in the ejecta. In this letter we describe a mechanism resulting from an interplay between nucleosynthesis and turbulent flame evolution which counteracts such an effect. Based on three-dimensional simulations we argue that it is nearly balanced and only minor differences in the amount of synthesized $^{56}$Ni with varying carbon mass fraction in the progenitor can be expected. Therefore this progenitor parameter is unlikely to account for the observed variations in Type Ia supernova luminosity. We discuss possible effects on the calibration of cosmological measurements.
Hillebrandt Wolfgang
Roepke Friedrich Konrad
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