At the heart of every atomic nucleus, the strong interaction quietly dictates the structure of matter, yet for decades one of ...

All experiments broke records in the final full operating year of the third run of the LHC. All four LHC experiments performed extremely well throughout the 2025 proton run, detecting more collisions ...

Researchers from TUM, working at CERN, have made a groundbreaking discovery that reveals how deuterons are formed. Another long-standing question in particle physics has been answered. Scientists ...

The Large Hadron Collider (LHC) near Geneva, Switzerland became famous around the world in 2012 with the detection of the Higgs boson. The observation marked a crucial confirmation of the Standard ...

Suppression of a telltale sign of quark-gluon interactions indicates gluon recombination in dense walls of gluons. Previous experiments have shown that when ions are accelerated to high energies, ...

Behind every particle collision generated at the Large Hadron Collider is a multitude of technical feats. One of these is ...

Black holes remain one of the most enigmatic objects in the cosmos, offering profound insights into the nature of gravity and spacetime. Research on particle collisions in the intense gravitational ...

Later this decade, the Large Hadron Collider will be upgraded to the High-Luminosity LHC. What does “luminosity” mean in particle physics? Even on the hottest and driest days, rays from the sun are ...

Nuclear physicists studying particle collisions at the Relativistic Heavy Ion Collider (RHIC) have new evidence that particles called gluons reach a steady 'saturated' state inside the speeding ions.

A team of scientists has devised a machine learning algorithm that calculates, with low computational time, how the ATLAS detector in the Large Hadron Collider would respond to the ten times more data ...