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arxiv: 1802.05836 · v1 · pith:6LHKR5C5new · submitted 2018-02-16 · 🌌 astro-ph.SR · nucl-ex· nucl-th

Impacts of nuclear-physics uncertainties in the s-process determined by Monte-Carlo variations

classification 🌌 astro-ph.SR nucl-exnucl-th
keywords s-processbetauncertaintyconsidereddecaymonte-carlonucleosynthesisproduction
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The s-process, a production mechanism based on slow-neutron capture during stellar evolution, is the origin of about half the elements heavier than iron. Abundance predictions for s-process nucleosynthesis depend strongly on the relevant neutron-capture and $\beta$-decay rates, as well as on the details of the stellar model being considered. Here, we have used a Monte-Carlo approach to evaluate the nuclear uncertainty in s-process nucleosynthesis. We considered the helium burning of massive stars for the weak s-process and low-mass asymptotic-giant-branch stars for the main s-process. Our calculations include a realistic and general prescription for the temperature dependent uncertainty for the reaction cross sections. We find that the adopted uncertainty for (${\rm n},\gamma$) rates, tens of per cent on average, effects the production of s-process nuclei along the line of $\beta$-stability, and that the uncertainties in $\beta$-decay from excited state contributions, has the strongest impact on branching points.

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