Hints of a new fundamental interaction are starting to look less like statistical ghosts and more like a pattern that refuses ...

WASHINGTON (Reuters) - The peculiar wobble of a subatomic particle called a muon in a U.S. laboratory experiment is making scientists increasingly suspect they are missing something in their ...

Scientists at Fermilab near Chicago are uncovering possible evidence of a potential new force of nature by observing muons' unconventional behavior, deviating from the current sub-atomic theory.

First results from the Muon g-2 experiment at Fermilab have strengthened evidence of new physics. The centerpiece of the experiment is a 50-foot-diameter superconducting magnetic storage ring, which ...

Physicists may have yet another fundamental particle left to discover. When physicists at the Large Hardon Collider discovered the Higgs boson back in 2012, they’d found the last missing piece of the ...

The long-awaited first results from the Muon g-2 experiment at Fermi National Accelerator Laboratory show fundamental particles called muons behaving in a way that is not predicted by scientists’ best ...

The Muon’s aberrant behavior, an extended quantum particle wobble, upends the Standard Theory, creating in Physics an existential wobble. If you're enjoying this article, consider supporting our award ...

Researchers have used Europe's most powerful high-performance computing (HPC) infrastructure to run new and more precise lattice quantum chromodynamics (lattice QCD) calculations of muons in a ...

The muon—the short-lived cousin of the electron—could be the key to understanding relationships between other fundamental particles. And it holds a mystery all its own. In the 1930s, scientists ...