Muons are a key subatomic particle in the discovery of new physics, but after particle collision, they’re difficult to track.

Muons galore: why is Pierre Auger seeing more muons than expected? (Courtesy: Pierre Auger Observatory) Significantly more muons appear to be created in cosmic-ray showers than are predicted by models ...

What lies within: exploring Khufu's Pyramid using virtual reality A large void hidden deep within Khufu’s Pyramid at Giza in Egypt has been discovered by a team of physicists. The first-ever image of ...

At its most glamorous, the life of an experimental high-energy physicist consists of smashing obscure subatomic particles with futuristic-sounding names into each other to uncover truths about the ...

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On Wednesday, April 7, the Muon g-2 Experiment at Fermilab released its eagerly awaited first result. In the experiment, muons (like electrons but heavier) race around the 150-foot circumference ...

The next generation of atom smasher could be a 100-kilometer-round ring, costing over $10 billion, with no promise of finding something as glamorous as last decade’s Higgs boson. But does the future ...

You might think that particle physicists would be sad when an experiment comes up with different results than their theory would predict, but nothing brightens up a field like unexplained phenomena.

From protons to electrons to atomic nuclei, physicists love smashing tiny stuff together. And soon, they may have an even better way to get their kicks. A new experiment raises prospects for building ...