First experimental constraint on the 191Os(n,γ) reaction rate relevant to s-process nucleosynthesis

Abstract

The nuclear level density and γ-decay strength of 192Os have been extracted using particle-γ coincidence data from the 192Os(α,αγ)192Os reaction by means of the Oslo method. The level density is found to be a rather smooth function of excitation energy, approximately following the constant temperature model. The γ-decay strength is compared to photoneutron cross-section data above the neutron separation energy, and to E1 and M1 strengths for nuclei in this mass region derived from primary transitions following neutron capture. Our results are in good agreement with these previous data and draw a consistent picture of the γ-strength function in the range Eγ ≈ 1.5-6 MeV. Using the measured nuclear level density and γ-decay strength as input to the nuclear-reaction code TALYS, we provide the first experimentally constrained Maxwellian-averaged cross section (MACS) for the 191Os(n,γ)192Os reaction relevant to s-process nucleosynthesis. The systematic uncertainties introduced by the normalization procedure of the level density and γ-strength function were investigated and propagated to the calculated Maxwellian-averaged cross section. The obtained result of the Maxwellian-averaged cross section at kBT=30 keV, σ n,γ=1134 375 mb, is in very good agreement with the theoretical estimate provided by the KADoNiS project, giving experimental support to the adopted KADoNiS value. Good agreement is also found with MACS values obtained from other libraries, such as TENDL-2017, ENDF/B-VII.0, and JEFF.