Stellar 30-keV neutron capture in 94,96Zr and the 90Zr(gamma,n)89Zr photonuclear reaction with a high-power liquid-lithium target

TL;DR

This study demonstrates a high-power liquid-lithium target for neutron production, enabling precise measurement of neutron capture cross sections for zirconium isotopes at 30 keV, with potential for extending to radioactive targets.

Contribution

First use of a high-power liquid-lithium target for neutron production and accurate cross section measurements of 94Zr and 96Zr at 30 keV.

Findings

Achieved neutron flux of 3-5e10 n/s with the setup.

Measured 30-keV MACS for 94Zr and 96Zr with high precision.

Produced intense prompt gamma-rays from the 7Li(p,gamma)8Be reaction.

Abstract

A high-power Liquid-Lithium Target (LiLiT) was used for the first time for neutron production via the thick-target 7Li(p,n)7Be reaction and quantitative determination of neutron capture cross sections. Bombarded with a 1-2 mA proton beam at 1.92 MeV from the Soreq Applied Research Accelerator Facility (SARAF), the setup yields a 30-keV quasi-Maxwellian neutron spectrum with an intensity of 3-5e10 n/s, more than one order of magnitude larger than present near-threshold 7Li(p,n) neutron sources. The setup was used here to determine the 30-keV Maxwellian averaged cross section (MACS) of 94Zr and 96Zr as 28.0+-0.6 mb and 12.4+-0.5 mb respectively, based on activation measurements. The precision of the cross section determinations results both from the high neutron yield and from detailed simulations of the entire experimental setup. We plan to extend our experimental studies to low-abundance and radioactive targets. In addition, we show here that the setup yields intense high-energy (17.6 and 14.6 MeV) prompt capture gamma-rays from the 7Li(p,gamma)8Be reaction with yields of ~3e8 gammas/s/mA and ~4e8 gammas/s/mA, respectively, evidenced by the 90Zr(gamma,n)89Zr photonuclear reaction.