There, members of the Muon g–2 (pronounced as “g minus ... Muons, like electrons, are subatomic particles that carry negative electrical charge; unlike electrons, muons decay after a few ...

These unstable subatomic particles are much like familiar electrons ... This apparent discrepancy in the muon’s “magnetic moment” has been significant to physicists because it could arise ...

The Standard Model predicts how fast a muon should wobble in a magnetic field, and it also predicts exactly how tiny subatomic particles flickering in and out of existence nearby can subtly nudge ...

By taking stock of how the subatomic particles wobble in a magnetic field, physicists have pinned down a property of the muon’s internal magnet to greater precision than ever before, researchers ...

To investigate the muon's wobbling, physicists at Fermilab ... Standard Model — the set of equations that explain all subatomic particles, which has remained unchanged since the mid-1970s.

The muon, like the electron ... they interacted with other subatomic particles that, like tiny dance partners, altered their wobble. The 2021 results similarly showed an anomalous wobble.

He proposed using muons, highly penetrating subatomic particles created when cosmic rays strike Earth’s atmosphere, to search for hidden chambers within one of the pyramids of Giza. These muon ...

The muon is a particle in atoms that is 200 ... but an understanding of how subatomic particles work has led to advancements such as transistors, lasers and MRIs. University of Chicago Professor ...

smashing it apart into a shower of subatomic particles. Muons formed in this manner can either reach the surface or enter the ...

when the dominant theory to explain subatomic particles was solidified. In other words, the muon's minute wobbling — known as its magnetic moment — has the potential to shake the very ...