Stellar β--decay rate of 63Ni and its impact on the s-process nucleosynthesis in massive stars

Abstract

The β--decay rate of 63Ni, an important branching point, affects the subsequent nucleosynthesis in the weak component of the slow-neutron capture process (weak s-process). To evaluate the impact of the uncertainties of stellar lifetime of 63Ni on abundances, we calculate the contribution to β--decay rates from its excited states using the large-scale shell model with various interactions and also explore the atomic effects in the highly ionized plasma. In the core He burning stage and the shell C burning stage of massive stars, our new rates can be larger than those from Takahashi and Yokoi(1987) by up to a factor of 4 and 6, respectively. We evaluate the impact of the stellar decay rates of 63Ni on the nucleosynthesis of A=6090 in a star with an initial mass of 25 M and solar metalicity. We find that the new rates can lead to the abundance changes of 64Ni, 63Cu, 65Cu, 64Zn, 66Zn, 67Zn, and 68Zn by up to 18\%, 14\%, 7\%, 98\%, 16\%, 15\%, and 13\%, respectively, after the shell C burning stage at the Lagrangian mass coordinate Mr=2M. The enhancement of the decay rate of 63Ni increases the weak s-process efficiency of nuclei after 65Cu.

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