Scientists at CERN’s LHCb experiment have discovered a new particle made of two charm quarks and one down quark.

CERN team discovers heavy proton, advancing understanding of strong force LHCb spots ultra-brief, charm-rich baryon that ...

The ALICE Collaboration takes a step further in addressing the question of whether a quark–gluon plasma can be formed in proton–proton and proton–nucleus collisions. In the first few microseconds ...

Scientists led by the University of Manchester have identified a new heavy doubly-charmed relative of the proton.

Neanderthal DNA explains how human faces form, tardigrades struggle in Martian soil, new tech tracking monarch butterflies and a fish with a hole in its head.

Physicists working on the LHCb experiment at CERN’s Large Hadron Collider have discovered a new subatomic particle called the ...

Scientists working on CERN’s ALICE experiment have reported the first observation of a distinctive flow pattern among quarks ...

Dimensions beyond the four we’re familiar with could solve a host of problems in physics and cosmology. Columnist Leah Crane ...

CERN scientists have uncovered a new proton-like particle, the Ξcc+, revealing a heavier and long-predicted member of the subatomic world.

The magnum opus of particle physics is far from complete, requiring physicists to devise many alternatives—some weirder than ...

This also means that there could be hidden curvatures of space-time or gravitational fields, which could explain a fundamental issue in physics: the hierarchy problem. There are several ongoing ...