Why did this particle mysteriously disintegrate?

A mathematical equivalent of a microscope with variable resolution has shed light on why some atoms are exceptionally stable, ...

Something genuinely strange has just happened in fundamental physics: an underground neutrino telescope in the Mediterranean ...

A new theory suggests the universe’s greatest secrets are hiding in a “zeptouniverse” that’s ready to be explored—without ...

After years of confusion, a new study confirms the proton is tinier than once thought. That enables a test of the standard model of particle physics.

New analysis by Francesca Capel and Nadine Bourriche narrows possible sources of the Amaterasu cosmic ray, suggesting nearby galaxies like M82 rather than the Local Void.

The research team used two distributed sensors and leveraged two quantum resources for increasing detection sensitivity: ...

Scientists say an ultra-powerful neutrino once thought impossible may be explained by an exotic black hole model involving a so-called “dark charge.” ...

Neutrinos are very small, neutral subatomic particles that rarely interact with ordinary matter and are thus sometimes ...

In some quantum materials, which are materials governed by quantum mechanical effects, interactions between charged particles (i.e., electrons) can prompt the creation of quasiparticles called anyons, ...

Scientists have utilized the unique properties of quantum states of light to implement distributed, quantum-enhanced sensing.

At the smallest scales of nature, the rules of the world shift in ways that can feel unsettling and beautiful at the same ...