New experimental constraint on the 185W(n,γ)186W cross section

Abstract

In this work, we present new data on the 182,183,184W(γ,n) cross sections, utilizing a quasi-monochromatic photon beam produced at the NewSUBARU synchrotron radiation facility. Further, we have extracted the nuclear level density and γ-ray strength function of 186W from data on the 186W(α,αγ)186W reaction measured at the Oslo Cyclotron Laboratory. Combining previous measurements on the 186W(γ,n) cross section with our new 182,183,184W(γ,n) and (α,αγ)186W data sets, we have deduced the 186W γ-ray strength function in the range of 1 < Eγ < 6 MeV and 7 < Eγ < 14 MeV. Our data are used to extract the level density and γ-ray strength functions needed as input to the nuclear-reaction code TALYS, providing an indirect, experimental constraint for the 185W(n,γ)186W cross section and reaction rate. Compared to the recommended Maxwellian-averaged cross section (MACS) in the KADoNiS-1.0 data base, our results are on average lower for the relevant energy range kB T ∈ [5,100] keV, and we provide a smaller uncertainty for the MACS. The theoretical values of Bao et al. and the cross section experimentally constrained on photoneutron data of Sonnabend et al. are significantly higher than our result. The lower value by Mohr et al. is in very good agreement with our deduced MACS. Our new results could have implications for the s-process and in particular the predicted s-process production of 186,187Os nuclei.