Subatomic particles called muons could measure pressure changes in supercell thunderstorms and the twisters they kick up.

Cascades of muons are byproducts of high-energy cosmic rays as they collide with nuclei in the upper atmosphere, and scientists see more muons at Earth's surface than standard physics models predict.

The Earth is under constant bombardment from cosmic rays, most of them being nuclei ... and the pions then decay into muons. These muons are similar to electrons, having a +1 or -1 charge ...

The additional mass allows it to penetrate through hundreds of metres of materials including brick and concrete. Cosmic ray muons are created in the atmosphere when so-called primary cosmic ray ...

Scientists from the University of Tokyo and NEC Corp. noted that cosmic-ray muons readily pass through solid rock, offering obvious advantages for use in car navigation systems and self-driving ...

Want to see cosmic rays? You might need a lot of expensive exotic gear. Nah. [The ActionLab] shows how a cup of coffee or cocoa can show you cosmic rays — or something — with just the right ...

The company has already successfully tested the equipment at the British nuclear facility Sellafield. Muons are born from the collision of high-energy cosmic ray protons with atomic nuclei in the ...

Because superconducting qubits are negatively impacted by cosmic rays and associated energetic particles like muons, understanding how this impacts these delicate devices is crucial. The knowledge ...

When they hit Earth's atmosphere, they create a shower of particles called secondary cosmic rays. These secondary particles (such as electrons, positrons, and muons) can be detected by the cloud ...

When they hit Earth's atmosphere, they create a shower of particles called secondary cosmic rays. These secondary particles (such as electrons, positrons, and muons) can be detected by the cloud ...