Muons are getting a move on. In a step toward new types of particle physics experiments, scientists cooled and then accelerated a beam of muons. The subatomic particles, heavy cousins of electrons, ...

Breakthroughs, discoveries, and DIY tips sent six days a week. Terms of Service and Privacy Policy. The electron is one of the most common bits of matter around us ...

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 ...

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 ...

A little over a year ago we’d written about a sub $100 muon detector that MIT doctoral candidate [Spencer Axani] and a few others had put together. At the time there was little more than a paper on ...

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 ...

Particle deflector: the paths of muons are affected by the huge voltages found in thunderclouds. (Courtesy: iStock/prudkov) A thundercloud with a record-breaking voltage of 1.3 GV has been observed by ...

When Fermilab physicist Steve Geer agreed to perform a calculation as part of a muon collider task force 10 years ago, he imagined he would show that the collider s technical challenges were too ...

The 50-foot-wide racetrack used to study muons traveled by barge around Florida and up the Mississippi, and then by truck across Illinois. Reidar Hahn, Fermilab About 50 years ago, physicists came up ...

The standard model of particle physics is beginning to show cracks. A fundamental particle called the muon has been caught behaving strangely, and new experimental results from Fermilab in Illinois ...

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 ...

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.