A lot of the science from our accelerators is published long after collisions end, so storing experimental data for future ...

Particles similar to axions, the leading candidate for dark matter that has long eluded detection, may have already been ...

A new LHCb analysis confirms a previously observed tension with the Standard Model, but more data and improved theoretical ...

The Large Hadron Collider (LHC) presents a tough case for electronics. Situated inside a 17-mile long tunnel that runs in a ...

The final elements of the FASER (Forward Search Experiment) detector are installed in the TI12 tunnel of the LHC. It is located along the beam collision axis, 480 m from the ATLAS interaction point, ...

Matter and antimatter should have completely wiped each other out eons ago, leaving the Universe a very empty place. Obviously that didn't happen. Experiments at the Large Hadron Collider (LHC) may ...

As upgrades enable the LHC to produce more and more particle collisions, physicists are using machine learning to keep up with the growing task of sorting through everything. In 2010, Mike Williams ...

When you buy through links on our articles, Future and its syndication partners may earn a commission. Credit: Janik Ditzel for the ALICE collaboration The world's most massive science experiment has ...

April 23, 2024 — Earth Observation (EO) and particle physics research have more in common than you might think. In both environments, whether capturing fleeting particle collisions or detecting ...

The top quark’s extreme mass makes it decay almost immediately after it is produced. “The top and antitop quarks just have ...