Lutetium thermometry for Oklo natural reactors: a new look at old data

Abstract

Lutetium thermometry has been used to analyze Oklo natural nuclear reactor zones but leads to widely varying and puzzling predictions for the temperatures TO which in turn impacts bounds on time variation of the fine structure constant α. We revisit results for reactor zone RZ10 in light of new measurements of the isomer branching ratio Bg in 175Lu neutron capture at 5 and 25 keV. We recalculate predictions for TO as a function of Bg using realistic models of the Oklo neutron flux. We find TO = 100 30 C using a new value of Bg, in contrast to 350 < TO < 500 C using the evaluated value at thermal energy. Lutetium thermometry can be applicable to analyses of Oklo reactor data, but a better measurement of Bg with thermal neutrons is needed to confirm the reliability of temperature predictions.