Double beta decay is a rare nuclear process that has significant implications for understanding fundamental physics, particularly in the study of neutrinos and their properties. Detecting this ...

One of the things that could give us a definitive answer is the neutrinoless double beta decay process. As mentioned earlier, when matter and antimatter meet, they annihilate. So, if a neutrino ...

Such pairs are involved when two neutrons in a higher-neutron-number “parent” nucleus transform into protons via a nuclear ...

nEXO will search for neutrinoless double beta decay of xenon-136. Neutrinoless double beta decay experiments probe physics beyond the Standard Model by searching for an extremely rare nuclear decay.

The proton remains inside the nucleus, but the electron is ejected at high speed. This is called beta decay.. Beta decay causes the atomic number of the nucleus to increase by one (because there ...

The effects of the weak force were first discovered at the turn of the 20th century, in the place where it is most obviously at work: in radioactive beta decay. In the most common form of this ...

After emitting an alpha or beta particle, the nucleus will often still be ‘excited’ and will need to lose energy. It does this by emitting a high energy electromagnetic wave called a gamma ray.