Howdy, pards! This autumnal week brought a new challenge to last decade's claim of a strong Yellowstone trophic cascade after ...

If these knots had a slight bias toward matter over antimatter, their unraveling could help explain the matter-antimatter ...

In 1867, Lord Kelvin imagined atoms as knots in the aether. The idea was soon disproven. Atoms turned out to be something ...

According to the laws of physics, matter and antimatter behave the same way and were formed in equal quantities in the Big ...

In the quest to unravel the mysteries of the universe, physicists are revisiting a 150-year-old theory that could illuminate ...

Physicists have been chasing one of the universe’s strangest mysteries—neutrinos, nearly invisible particles that zip through ...

Japan–US scientists combine T2K and NOvA data to measure neutrino mass gaps with record precision, offering clues to the ...

Caltech researchers co-lead new study refining what we know about the ghostly particlesVery early on in our universe, when it ...

In a new study, the team posits that “cosmic knots” – topologically stable tangles in spacetime – emerged in the very early ...

Two research teams that study neutrinos, the featherweights of the particle world, published their results in Nature this ...

In a new analysis, physicists provide the most precise picture yet of how neutrinos change 'flavor' as they travel through ...

Facilities that make particles called B mesons may seem obscure, but they could help explain why there is more matter than ...