As the world gears up for more powerful particle colliders, new 4D quantum sensors tested at Fermilab promise sharper ...

To learn more about the nature of matter, energy, space, and time, physicists smash high-energy particles together in large ...

Brookhaven National Laboratory's Relativistic Heavy Ion Collider kicked off its final year of operations this week, marking a quarter century of discoveries in particle physics.

Physicists are tapping into the strange world of quantum sensors to revolutionize particle detection in the next generation ...

In the relentless pursuit of understanding matter, energy, space, and time, physicists use powerful accelerators to collide high-energy particles, generating a storm of subatomic ...

Dark matter remains one of science's greatest mysteries, possibly making up 85% of all matter in the universe. Despite ...

An innovative algorithm for detecting collisions of high-speed particles within nuclear fusion reactors has been developed, ...

Researechers are testing superconducting microwire single-photon detectors (SMSPDs) for use in future particle physics ...

Then from 2038, the scientific equipment would start getting installed. The two main experiments will need huge underground caverns up to 66 meters tall to house the particle detectors.

Researechers are testing superconducting microwire single-photon detectors (SMSPDs) for use in future particle physics exepriments. The detectors, which were designed and fabricated at JPL and ...

Then from 2038, the scientific equipment would start getting installed. The two main experiments will need huge underground caverns up to 66 metres tall to house the particle detectors.