Scientists at CERN's ALICE detector are replicating conditions found during the Big Bang, attempting to get to the bottom of ...

Getting places in space quickly has been the goal of propulsion research for a long time. Rockets, our most common means of ...

One of the leading theories to explain this disparity is charge–parity (CP) violation, a phenomenon predicted by the Standard ...

Heavy ion collisions at the Large Hadron Collider generate conditions conducive to the formation of hypernuclei and their ...

In the Big Bang, matter and antimatter should have been created in equal amounts. But fast forward 13.8 billion years to the ...

Writer Chetna Krishna follows CERN’s “coolest” transport, a test of a system to ship stored antimatter across the continent. I reach CERN’s Antimatter Factory at 8 a.m. sharp. I’m here at the ...

Scientists at the Large Hadron Collider (LHC) have made an exciting discovery—the antimatter version of hyperhelium-4. This ...

Scientists are exploring the possibilities of antimatter propulsion as they try to achieve interstellar travel. While conventional rockets provide high thrust, they struggle with low efficiency.

The ALICE collaboration at the LHC has provided the first evidence of antihyperhelium-4, the heaviest antimatter hypernucleus ...

Scientists at CERN's ALICE detector are replicating conditions found during the Big Bang, attempting to get to the bottom of how matter came to dominate over antimatter. The world's most massive ...