Silver-110’s decay reveals a promising path to measure antineutrino mass. New data could reshape future neutrino studies.

The approach uses techniques from organic chemistry, optical microscopy, and nuclear physics to identify individual barium ...

In neutrino-less double-beta decay search, UMass Amherst physicists excel Pocar, Kumar and the team of 60 scientists using an instrument called the EXO-200 detector, succeeded in ...

These electrons carry away most — but not all — of the energy released during a beta decay event. It’s that missing energy that can reveal the neutrino mass. Although this subtraction strategy has ...

The observation of neutrinoless double beta decay could have important implications for the study of matter and antimatter. In fact, it would confirm that neutrinos and their antiparticles (i.e ...

Neutrino mass measurements remain one of the most challenging endeavours in contemporary physics. Direct measurement techniques, particularly those probing the endpoint of the tritium β-decay ...

In beta decay, a proton or neutron in a nucleus emits a beta particle (an electron or its anti-particle, a positron) and a neutrino. The properties of the beta decays of the radioactive mirror ...

Unlike tritium, holmium-163 doesn’t undergo beta decay. Instead, one of the electrons in the atom gets ‘captured’ by a proton in its nucleus. This converts the proton into a neutron ...

For example, during the Ac-227 beta decay, a neutron emits a W – boson and turns into a proton, and the W – boson decays to an electron and an anti-neutrino. A sign in the difference ...

Scientists have observed a rare new radioactive decay mode for the first time. In this decay mode, oxygen-13 (with eight protons and five neutrons) decays by breaking into three helium nuclei (an ...