Muon tomography (muography) is the practice of using muons generated by cosmic rays interacting with Earth’s atmosphere (or equivalent) to image structures on Earth’s surface, akin to ...

These muon particles are heavyweight cousins of electrons that travel close to the speed of light. They can penetrate through ...

Alex Keshavarzi digs into the showdown between two competing Standard Model predictions of the muon, which may reveal undiscovered particles hiding in the vacuum ...

Muons are sub-atomic particles similar to electrons. The main difference is their mass; a muon is 200 times heavier than an ...

Muons are similar to electrons — the tiny particles that zip around atomic nuclei — but are 200 times more massive; hence their nickname, "fat electrons." These fat electrons can penetrate ...

As they collide with nuclei in our atmosphere, pions and kaons are produced, and the pions then decay into muons. These muons are similar to electrons, having a +1 or -1 charge, but with 200 ...

But by using muons, a type of elementary particle that can pass through glass and other materials, researchers “saw through” the 3-millimeter-thick glass and confirmed that the white power ...

The neutrino observatory KM3Net is located in the depths of the Mediterranean Sea and measures a cosmic neutrino at the ...

It involves using muons—subatomic particles similar to protons but with a lighter mass. When introduced into a material, muons interact with local magnetic fields, providing unique insights into ...

Once again, this seems to favour annihilations that proceed largely to electrons, muons or taus. Finally, to produce these signals, the dark matter must annihilate at a rate hundreds or thousands ...