The impact of new (α, n) reaction rates on the weak s-process in metal-poor massive stars
Abstract
Massive stars are significant sites for the weak s-process (ws-process). 22Ne and 16O are, respectively, the main neutron source and poison for the ws-process. In the metal-poor stars, the abundance of 22Ne is limited by the metallicity, so that the contribution of 22Ne(α, n)25Mg reaction on the s-process is weaker. Conversely, the 17O(α, n)20Ne reaction becomes more prominent in these stars due to the most abundant 16O in all metallicities. In this work, we calculate the evolution of four metal-poor models (Z=10-3) for the Zero-Age Main-Sequence (ZAMS) masses of M ( ZAMS)= 15, 20, 25, and 30 M to investigate the effect of reaction rates on the ws-process. We adopt the new 17O(α, n)20Ne and 17O(α, γ)21Ne reaction rates suggested by Best et al. (2013) and 22Ne(α, n)25Mg and 22Ne(α, γ)26Mg from Wiescher et al. (2023). The yields of the s-process isotope with updated reaction rates are compared with the results using default reaction rates from JINA REACLIB. We find that the new 17O+α reaction rates increase the ws-process mainly in all the stages, while the new 22Ne+α reaction rates only increase the ws-process in C and Ne burning stages. Updating these new reaction rates would increase the production of ws-process isotopes by tens of times. We also note that for more massive stars, the enhancement by new 17O+α reaction rates become more significant.
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