Test of statistical model cross section calculations for $\alpha$-induced reactions on $^{107}$Ag at energies of astrophysical interest

TL;DR

This study experimentally measures low-energy alpha-induced reaction cross sections on $^{107}$Ag to test and refine theoretical models crucial for astrophysical nucleosynthesis simulations, revealing discrepancies and guiding model improvements.

Contribution

It provides new experimental cross section data for $^{107}$Ag reactions at astrophysical energies and analyzes model discrepancies to improve theoretical predictions.

Findings

Measured cross sections are lower than theoretical predictions.

Discrepancies can be reduced by rescaling gamma/neutron widths.

Energy-dependent optical potential improves model agreement.

Abstract

Astrophysical reaction rates, which are mostly derived from theoretical cross sections, are necessary input to nuclear reaction network simulations for studying the origin of $p$ nuclei. Past experiments have found a considerable difference between theoretical and experimental cross sections in some cases, especially for ($\alpha$,$\gamma$) reactions at low energy. Therefore, it is important to experimentally test theoretical cross section predictions at low, astrophysically relevant energies. The aim is to measure reaction cross sections of $^{107}$Ag($\alpha$,$\gamma$)$^{111}$In and $^{107}$Ag($\alpha$,n)$^{110}$In at low energies in order to extend the experimental database for astrophysical reactions involving $\alpha$ particles towards lower mass numbers. Reaction rate predictions are very sensitive to the optical model parameters and this introduces a large uncertainty into theoretical rates involving $\alpha$ particles at low energy. We have also used Hauser-Feshbach statistical model calculations to study the origin of possible discrepancies between prediction and data. An activation technique has been used to measure the reaction cross sections at effective center of mass energies between 7.79 MeV and 12.50 MeV. Isomeric and ground state cross sections of the ($\alpha$,n) reaction were determined separately. The measured cross sections were found to be lower than theoretical predictions for the ($\alpha$,$\gamma$) reaction. Varying the calculated averaged widths in the Hauser-Feshbach model, it became evident that the data for the ($\alpha$,$\gamma$) and ($\alpha$,n) reactions can only be simultaneously reproduced when rescaling the ratio of $\gamma$- to neutron width and using an energy-dependent imaginary part in the optical $\alpha$+$^{107}$Ag potential.......