Re-evaluation of the 16O(n,γ)17O cross section at astrophysical energies and its role as neutron poison in the s process

Abstract

The doubly-magic nucleus 16O has a small neutron capture cross section of just a few tens of microbarn in the astrophysical energy region. Despite of this, 16O plays an important role as neutron poison in the astrophysical slow neutron capture (s) process due to its high abundance. We present in this paper a re-evaluation of the available experimental data for 16O(n,γ)17O and derive a new recommendation for the Maxwellian-averaged cross sections (MACS) between kT= 5-100 keV. Our new recommendations are lower up to kT= 60 keV compared to the previously recommended values but up to 14\% higher at kT= 100 keV. We explore the impact of this different energy dependence on the weak s-process during core helium- (kT= 26 keV) and shell carbon burning (kT= 90 keV) in massive stars where 16O is the most abundant isotope.