Impact of the uncertainties of 3 α and 12 C(α,γ)16 O reactions on the He-burning phases of low- and intermediate-mass stars

Abstract

We estimate the impact on the stellar evolution of the uncertainties in the 3α and the 12 C(α,γ)16 O reaction rates [...]. We calculated models of low- and intermediate-mass stars for different values of the rates. The 3α reaction rate was varied up to 24\%, while the 12 C(α,γ)16 O reaction rate was varied by up to 35\%. The models were calculated for two different initial chemical compositions to represent different stellar populations. A M = 0.67 M model was chosen as representative of the halo ancient stars, while for disk stars, the M=1.5 M and M=2.5 M models were considered. The impact of the two reaction rates on the central He-burning lifetime and the asymptotic giant branch (AGB) lifetime, as well as the mass of the C/O core at the central He exhaustion and the internal C and O abundances, was investigated. A variation of the 12 C(α,γ)16 O reaction rates resulted in marginal differences in the analysed features among the three considered stellar masses, except for the C/O abundances. The central He-burning lifetime changed by less than 4%, while the AGB lifetime was affected only at the 1% level. The internal C and O abundances showed greater variation, with a change of about 15%. The uncertainty in the 3α reaction rate mainly influences the C and O central abundances (up to 10%) for all the models considered, and the AGB lifetime for intermediate mass stars (up to 5%). Most of the investigated features were affected by less than 2%. The current uncertainty in the two reaction rates has a negligible effect on the predicted evolutionary time scale with respect to other uncertainty sources. The variability in the chemical profile at the end of the shell He-burning phase is still relevant.

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