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 ...

Look alive, science fans — a new subatomic particle has just dropped after a 20-year search. Discovered by British researchers at the nuclear research laboratory CERN near Geneva, Switzerland, the ...

A single particle cut through the Mediterranean in February 2023 carrying an almost absurd amount of energy. Detected deep ...

Researchers at South Dakota Mines have completed the first measurement of a rare particle interaction that could help ...

US researchers have successfully accelerated and stored the first proton beams inside a specialized ...

From left, Drew Crandall, director of community engagement for Danbury Proton; Danbury Mayor Roberto Alves; and Stephen Courtney, managing director ...

A new experiment using rare-isotope beams has provided new insight into the origin of proton-rich isotopes known as p-nuclei.

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

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

Physicists have discovered a surprising new “Island of Inversion” in a place no one expected: among nuclei where the number ...