Neutrinos are low-mass subatomic particles with zero electric charge that interact with matter only via the weak nuclear force and gravity. This makes neutrinos difficult to detect, despite the fact ...

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 ...

The KATRIN (Karlsruhe Tritium Neutrino) experiment has provided fresh insights into sterile neutrinos. Neutrinos ...

An elongation versus departure from axial symmetry (triaxiality) plot showing distinctive differences in the shapes of the parent (germanium-76, “rigid”) and daughter (selenium-76, “soft”) nuclei for ...

Neutrinos and antineutrinos are elementary particles with small but unknown mass. High-precision atomic mass measurements have revealed that beta decay of the silver-110 isomer has a strong potential ...

Halloween horror movies often feature ghosts slipping through walls unnoticed by those in the dwellings they haunt. At the Department of Energy’s Pacific Northwest National Laboratory, scientists seek ...

The problem remains that majorons, like all hypothetical dark matter particles, have never been detected and experiments keep putting finer and finer limits on their potential existence. I'm almost ...

Everything we see around us, from the ground beneath our feet to the most remote galaxies, is made of matter. For scientists, that has long posed a problem: According to physicists’ best current ...

Join Pranava Teja Surukuchi, PhD, a member of the Yale University Wright Lab, who will present "Unlocking the Mass of Neutrinos." Neutrinos are the second most abundant particles in the Universe and ...