The gamma-ray strength function of 89Y and 90Y

Abstract

In this work, we present new data on the 89Y(γ,n) cross section studied with a quasi-monochromatic photon beam produced at the NewSUBARU synchrotron radiation facility in Japan contributing torwards resolving a long standing discrepancy between existing measurements of this cross section. Results for γ-ray strength function below threshold obtained by applying the Oslo method to 89Y(p,p'γ)89Y coincidences combined with the 89Y(γ,n) data this providing experimental data for the γ-ray strength function of 89Y for γ energies in the range of ≈ 1.6 Mev to ≈ 20 MeV. A low-energy enhancement is seen for γ-rays below ≈ 2.5 MeV. Shell-model calculations indicate that this feature is caused by strong, low-energy M1 transitions at high excitation energies. The nuclear level density and γ-ray strength function have been extracted from 89Y(d,p γ)90Y coincidences using the Oslo method. Using the (γ,n) and (d,pγ) data as experimental constraints, we have calculated the 89Y(n,γ)90Y cross section with the TALYS reaction code. Our results have been compared with directly measured (n,γ) cross sections and evaluations. The N=50 isotope 89Y is an important bottleneck in the s-process and the magnitude of the 89Y(n,γ) cross section is key to understanding how s-process stars produce heavy isotopes.