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 ...

While neutrinos are some of the most abundant particles in the universe, they remain among the least understood. One of the ...

Scientists have gained insights into the weak nuclear force from new, more sensitive studies of the beta decays of the 'mirror' nuclei lithium-8 and boron-8. The weak nuclear force drives the process ...

Left: “Mirror” nuclei lithium-8 and boron-8 undergo beta decay, then split into two alpha particles. Right: Radioactive ions from the ATLAS accelerator at Argonne National Laboratory are suspended in ...

Neutrino-free process: observing neutrinoless double beta decay could shed light on important mysteries of particle physics. A new technique to enable the detection of a hypothetical process called ...

For the best part of 30 years, physicists have been looking for a very rare nuclear process known as neutrinoless double beta decay. With discovery still elusive, an international team of researchers ...

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 ...

The observation of neutrinoless double beta decay would suggest that, by itself, the Standard Model Higgs cannot give mass to neutrinos. Last year, physicists discovered the long-sought Higgs boson, ...

Transmuting one element into another (usually gold, of course) was the stuff of fevered dreams and fanciful imaginations for alchemists way back in the day. It turns out that nature does it all the ...

Transmuting one element into another (usually gold, of course) was the stuff of fevered dreams and fanciful imaginations for alchemists way back in the day. It turns out that nature does it all the ...