At the world’s most powerful colliders, physicists are finally catching sight of particles that almost never leave a trace, a ...

Observations of the formation of light-nuclei from high-energy collisions may help in the hunt for dark matter.

All experiments broke records in the final full operating year of the third run of the LHC.

Quantum physics is usually associated with particle colliders and vacuum chambers, not with the proteins quietly shuttling ...

Neutrinos are low-mass subatomic particles with zero electric charge that interact with matter only via the weak nuclear force and gravity. This makes neutrinos difficult to detect, despite the fact ...

Boiling sea of quarks and gluons, including virtual ones – this is how we can imagine the main phase of high-energy proton ...

Researchers developed a new, symmetry-consistent way to describe CP-violating neutral triple gauge couplings, correcting ...

The exploration of quantum information challenges objective reality, positing the universe as a hologram is explored through ...

An interview with Marumi Kado highlights the challenges and opportunities of the Future Circular Collider in particle physics ...

"Precision in these measurements is critical, as even subtle discrepancies could signal deviations from the model — ...

New high-precision mass measurements of phosphorus-26 and sulfur-27 have clarified how nuclear reactions unfold during explosive X-ray bursts on neutron stars (Artist’s concept). Credit: ...

Event displays (particle collisions) captured by the detectors of the LHC's four large experiments during 2025. Top left: ...