The ALICE Collaboration takes a step further in addressing the question of whether a quark–gluon plasma can be formed in ...

The U.S. nuclear physics community is preparing to build the electron–ion collider (EIC), a flagship facility for probing the properties of matter and the strong nuclear force that holds matter ...

Add Yahoo as a preferred source to see more of our stories on Google. When you buy through links on our articles, Future and its syndication partners may earn a commission. An illustration shows a ...

Scientists studying particle collisions at CERN have captured new evidence of how quarks move through the early universe’s primordial plasma.

Physicists at Goethe University in Frankfurt, Germany, have used supercomputer simulations to predict a specific gravitational-wave fingerprint that would confirm quark-gluon plasma forms inside the ...

Heavy-ion physics is a dynamic field that investigates the behaviour of matter under extreme conditions by colliding nuclei at relativistic speeds. Such collisions create a short-lived, ...

NEWPORT NEWS, VA – Inside the nucleus of the atom, the building blocks of matter are anything but static. Individual particles are in a constant state of energetic motion, like dancers on a dance ...

Newly released observations of the top quark -- the heaviest of all known fundamental particles -- could topple the standard model of particle physics. Data from collisions at the Tevatron particle ...

Theoretical physicists collaborate with OpenAI's artificial intelligence to solve complex calculations involving gluons and ...

OpenAI’s GPT-5.2 collaborated with leading physicists to derive and formally prove new results on gluon scattering amplitudes ...