Experimental (n,γ) cross sections of the p-process nuclei 74Se and 84Sr

Abstract

The nucleosynthesis of elements beyond iron is dominated by the s and r processes. However, a small amount of stable isotopes on the proton-rich side cannot be made by neutron capture and are thought to be produced by photodisintegration reactions on existing seed nuclei in the so-called "p process". So far most of the p-process reactions are not yet accessible by experimental techniques and have to be inferred from statistical Hauser-Feshbach model calculations. The parametrization of these models has to be constrained by measurements on stable proton-rich nuclei. A series of (n,γ) activation measurements, related by detailed balance to the respective photodisintegrations, were carried out at the Karlsruhe Van de Graaff accelerator using the 7Li(p,n)7Be source for simulating a Maxwellian neutron distribution of kT= 25 keV. First results for the experimental (n,γ) cross sections of the light p nuclei 74Se and 84Sr are reported. These experimental values were used for an extrapolation to the Maxwellian averaged cross section at 30 keV, <σ>30, yielding 27115 mb for 74Se, and 30017 mb for the total capture cross section of 84Sr. The partial cross section to the isomer in 85Sr was found to be 19010 mb.