A particle detected at the South Pole was born in a galaxy that churned out stars when the Universe was young.
Scientists still don’t know where ghostly particles called neutrinos originate. A distant galaxy could be a potential source.
Raymond Davis Jr. is dwarfed by the giant tank used by the Homestake detector in South Dakota, which first detected solar ...
Peering far into the distant, high-redshift universe, the James Webb telescope has discovered an abundance of small red ...
A tiny particle that barely interacts with anything in the universe has helped scientists solve one of astronomy's ...
A philosopher has put forward an argument for rethinking how particles are defined within the standard model of particle ...
"If confirmed, Shadow Blaster would be the first-ever individual dusty star-forming galaxy directly linked to a high-energy ...
A ghostlike particle from deep space sent astronomers chasing one of the Universe’s hardest mysteries. The trail led ...
An artist’s composition of the Milky Way seen with a neutrino lens (blue). Astronomers are hailing a “new lens” they can use to observe the universe after the publishing of this new image (above) of ...
To say that neutrinos aren’t the easiest particles to study would be a bit of an understatement. Outside of dark matter, there’s not much in particle physics that is as slippery as the elusive “ghost ...
A distant galaxy nicknamed Shadow Blaster may have revealed a surprising source of cosmic neutrinos: extreme star formation instead of a supermassive black hole. The discovery suggests that hidden, ...
A high-energy neutrino detected on Earth has been traced back to a distant galaxy nicknamed Shadow Blaster, located about 11 ...