In a dramatic leap for astrophysics, Chinese researchers have recreated a key cosmic process in the lab: the acceleration of ...

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

Intriguing signs from CERN hint at a never-before-seen form of matter – one that could be the tiniest particle cluster ever detected. Top quarks, typically too short-lived to pair up, may have briefly ...

Neutrinos are one of the most enigmatic fundamental particles. The Standard Model of particle physics suggests that these particles should be massless, but from time to time, scientists have come ...

Its advanced systems track particles produced in high-energy particle collisions, enabling discoveries such as the Higgs boson and searches for new physics beyond the Standard Model. The Breakthrough ...

A new estimate of the ghostly particle’s maximum possible mass ... to figuring out just what is wrong with the so-called Standard Model, their best — albeit incomplete — theory of the ...

April 9, 2025 — Fermilab announced that one of its computing projects received the second-largest award and was the largest particle physics project granted supercomputer time from the DOE Office of ...

Its cutting-edge systems track particles produced in particle collisions at unprecedented energies, enabling discoveries like the Higgs boson and searches for new physics beyond the Standard Model.

Physicists are finalizing plans for MATHUSLA, a powerful new addition to CERN's Large Hadron Collider that will detect long-lived particles and potentially open the door to new physics.

The Standard Model of particle physics is our best understanding of the fundamental particles and forces in the universe. However, it is not a complete theory as it does not account for several ...