These elusive particles have fascinated physicists for decades. And now the Antimatter Factory at Cern has succeeded in creating antihydrogen. Researchers hope it could help answer one of the ...

On 24 October, 70 protons were introduced into the trap and lifted onto a truck using two overhead cranes. The protons made a round trip through CERN’s main site before returning home to the ...

A EgIS is one of several experiments at CERN's Antimatter Factory producing and studying antihydrogen atoms with the goal of testing with high precision whether antimatter and matter fall to Earth ...

It would aim to serve as a so-called Higgs factory ... added that CERN's future research may explain why we observe more matter than anti-matter, suggesting "something is missing." ...

(Courtesy: CERN/ J Ditzel with AI-assistance) CERN’s ALICE Collaboration has found the first evidence for antihyperhelium-4, which is an antimatter hypernucleus that is a heavier version of antihelium ...

And they don't understand why matter won out while antimatter all but disappeared, only fleetingly observed in cosmic ray showers or created by colliding particles in labs like CERN. One theory to ...