A new field analysis explains what we need in order to progress with antimatter propulsion. While an antimatter engine is very far off, researching it could yield other discoveries as well. Scientists ...

Unfortunately, our theoretical knowledge of antimatter is not enough. To study it for any practical application, scientists must find a way to create and sustain more antimatter particles at a ...

High-powered lasers have transformed the way researchers explore extreme physical phenomena, pushing the boundaries of ...

The discovery could help scientists get closer to understanding the mysterious invisible matter that makes up the bulk of our ...

The Large Hadron Collider (LHC) has once again pushed the boundaries of science by detecting traces of the most massive antimatter nucleus ever observed. This discovery opens a new window into the ...

Join six leading experts to find out everything we know about the subatomic universe. Take a deep dive into the building ...

In the Big Bang, matter and antimatter should have been created in equal amounts. But fast forward 13.8 billion years to the present day, and the universe is made almost entirely of matter ...

Scientists have recently uncovered compelling evidence of antimatter in cosmic rays, which may offer a glimpse into the existence of an entirely new class of particles that have never been ...

With the proton trial-run a success, the team are confident they will be able to use this apparatus to successfully deliver ...