The European physics laboratory CERN is planning to build a mega collider by 2070. Critics say the plan could lead to its ...

Immense detectors surround the areas where inconceivably small particles slam into one another at super-high energies, collisions that may confirm Arkani-Hamed's predictions about undiscovered ...

For one, it's extremely short-lived. W bosons are made by smashing beams of particles together at nearly the speed of light inside powerful particle colliders like the Tevatron at Fermilab.

Analysing the aftermath of particle collisions has revealed two new instances of “CP violation”, a process that explains why our universe contains more matter than antimatter ...

On March 2, 1995, the top quark discovery at Fermilab was announced by scientists on the CDF and DZero collaborations, and ...

For one, it’s extremely short-lived. W bosons are made by smashing beams of particles together at nearly the speed of light inside powerful particle colliders like the Tevatron at Fermilab. But the W ...

This ghostly particle had an energy of around 100 PeV — over 25 times more energetic than the particles accelerated in the ...

In a first-of-its-kind experiment conducted at the world's most powerful particle accelerator, the Large Hadron Collider (LHC), scientists have attempted to discover if the universe's heaviest ...

It was then that I began working at Fermilab – the US’s premier particle physics lab. So you flipped from collider physics to neutrino physics? Over the past 20 years, I have oscillated between them ...

Neutrinos are very mysterious particles,” says Damien Dornic, one of the co-authors of a new paper published February 12 in Nature that describes the detection of the decay products of an extremely ...