The ATLAS collaboration finds evidence of Higgs-boson decays to muons and improves sensitivity to Higgs-boson decays to a Z ...

The Higgs boson’s decay into muons happens in only about one in every 5000 Higgs decays. So, the team had to search for a ...

Scientists may have observed the Higgs boson doing a new trick: creating pairs of muons. When the Higgs boson was discovered at the Large Hadron Collider (LHC) in 2012, it was the final piece of ...

The Large Hadron Collider is one of the biggest experiments in history, but it’s also one of the hardest to interpret. Unlike ...

The Higgs boson's decays have to follow some key rules. For instance, since the Higgs boson has no electric charge, its decay byproducts must combine to have zero electric charge as well.

Scientists have spotted the first evidence of a rare Higgs boson decay, expanding our understanding of the strange quantum universe.

SCIENTISTS at CERN are one step closer to understanding how the Higgs boson interacts with the Universe, after observing the never-seen-before decay of the so-called God Particle.

Scientists have finally observed Higgs bosons decaying into matter-antimatter pairs of bottom quarks, which could shed light on more fundamental physics.

Six years after discovering the Higgs boson, physicists have observed how the particle decays—a monumental contribution to scientists’ understanding of the Standard Model of particle physics ...

Event display of a candidate Higgs boson decaying to two muons (H→μμ), shown as red tracks in the detector. (Image: ATLAS/CERN) Studies of the ...

Particle physicists have detected a novel decay of the Higgs boson for the first time, revealing a slight discrepancy in the predictions of the Standard Model and perhaps pointing to new physics ...

CERN scientists use advanced AI to detect the Higgs boson's elusive decay into charm quarks, moving closer to decoding how this "God particle" gives mass to matter. The post CERN Unleashes AI to ...