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

It’s an interesting problem because we still don’t actually have an explanation for what those anomalies are,” explained ...

Chinese scientists propose building next-generation η meson factory to unveil new physics and cosmic mysteries Rare η meson decays to reveal new physics, dark sector, and matter-antimatter ...

AI helps CERN physicists charm Higgs boson into revealing rare decay Compact Muon Solenoid (CMS) researchers overcame two key challenges using advanced machine-learning models to better identify ...

It’s not just rare earths, as my colleague Max Bearak and I reported this week. China supplies more than half of the 50 minerals the U.S. government has deemed critical to national security and ...

Microsoft named the chip “Majorana 1” because it consists of Majorana particles, which is a particular type of subatomic particle with unusual properties. One is that a Majorana particle is ...

Particle Theory Overview Particle theory projects involve studying some of the most fundamental building blocks of the universe. Students are given the opportunity to do in depth research into ...

One of the biggest questions is whether neutrinos and antineutrinos are the exact same particle. A rare, never-before-seen decay would answer this question. SNO+ is currently looking for this decay.

The researchers used sophisticated computer simulations to model how dark matter particles, specifically Weakly Interacting Massive Particles (WIMPs), might produce these rare antimatter particles ...

In a particle collider at CERN, a rarely-seen event is bringing us tantalizingly close to the brink of new physics. From years of running what is known as the NA62 experiment, particle physicist ...