In recent years, some large physics experiments worldwide have been trying to gather evidence of a nuclear process known as neutrinoless double beta (0νββ) decay. This is a rare process that entails ...

Radionuclide metrology and beta decay studies represent a cornerstone of modern nuclear science, merging refined measurement techniques with advanced theoretical modelling to quantify radioactivity ...

Double beta decay, one of the rarest nuclear processes, offers a unique portal into the fundamental properties of neutrinos and the conservation of lepton number. Experimental strategies have evolved ...

In nuclear beta decay an up quark ‘u’ in a proton converts into an up down quark ‘d,’ turning the proton into a neutron and emitting a positron and a neutrino. This work affects interpretation of beta ...

First author of the publication Guy Leckenby works at the storage ring ESR at GSI/FAIR. Current calculations estimate that the formation of our Sun from the progenitor molecular cloud took about a few ...

Gold cannot form until certain unstable atomic nuclei break apart. Exactly how those nuclear transformations unfold has long been difficult to ...

Deep under a mountain in Italy, researchers continue to push the boundaries of science with an experiment that could rewrite the Standard Model of Particle Physics. Standard “double beta decay” is ...

A research team at the Facility for Rare Isotope Beams (FRIB) is the first ever to observe a beta-delayed neutron emission from fluorine-25, a rare, unstable nuclide. Using the FRIB Decay Station ...