Double beta decay research represents a pivotal field at the intersection of nuclear physics and particle physics, probing the fundamental nature of neutrinos and their role in the matter–antimatter ...

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

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 ...

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 ...

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 prototype porous-silicon diode that may lead to a betavoltaic-based BetaBattery with a useful life spanning several decades has been created by a multidisciplinary team of researchers from Rochester ...