High-precision measurement of 215Po half-life via delayed-coincidence analysis

Abstract

We performed a high-precision study of the 215 Po α-decay using a LaBr3 scintillating detector in a low-background environment. The 227Ac intrinsic contamination in the LaBr3 crystal undergoes a decay chain, producing the intermediate pair of 219Rn→215Po→211Pb decays. The fast time response and good energy resolution of the detector allow for extracting the short half-life of 215Po from the time correlation of the two subsequent α-decays by using the delayed coincidence method. Thanks to high statistics and a comprehensive uncertainty assessment, we obtain the most precise half-life value to date of 215Po, corresponding to 1.778040.00091(stat.)0.00067(syst.) ms.