After a new upgrade, a neutrino observatory in Antarctica may identify dormant supermassive black holes within our galaxy.

Three years ago, in the waters of the Mediterranean Sea, the passage of an "ultra-energetic" cosmic neutrino was observed—the ...

A single particle cut through the Mediterranean in February 2023 carrying an almost absurd amount of energy. Detected deep ...

In western Seoul, a brand-new home for new media has opened its doors. The Seo-Seoul Museum of Art (Seo SeMA) is the city’s ...

A fungus that evolved at Chernobyl and is now grown on the ISS, Cladosporium sphaerospermum, slightly reduced radiation levels.

The KM3NeT collaboration has traced the most energetic neutrino ever recorded back to a likely source: blazars, the supercharged jets fired by supermassive black holes directly toward Earth. The ...

Astronomers have identified a newborn magnetar as the power source behind SN 2024afav, a superluminous supernova whose brightness far exceeded what standard explosion models could explain. The finding ...

A distributed intercity network of quantum sensors is placing additional constraints on the parameters that axionic dark matter could have. (Courtesy: USTC) A new of way of searching for dark-matter ...

The search for the origin of a mysterious ultra-energetic cosmic neutrino detected in 2023 may have finally reached a ...

Deep canyons in the Andes are the perfect location to catch the most energetic particles in the universe. Carlos ...