Learn why the neutrino detector aims to capture elusive particles, hoping to reveal why the universe is the way it is.

Open wine doesn't last as long as you may think. Here's an easy guide to saving your leftovers for as long as possible.

Highly charged heavy ions form a very suitable experimental field for investigating quantum electrodynamics (QED), the ...

Mar. 12, 2025 — New research suggests black holes may transition into 'white holes', ejecting matter and potentially even time back into the universe, defying our current understanding of these ...

Traditionally, car tires have been filled with compressed air. Air is 78 percent nitrogen and just under 21 percent oxygen, ...

The NA61/SHINE collaboration have observed a strikingly large imbalance between charged and neutral kaons in argon–scandium ...

"We are able to measure the local dark matter density using direct acceleration measurements for the first time." Dark matter, widely known as the universe's most mysterious stuff, is rarer on ...

Matter is arguably the biggest thing to happen to smart homes since their inception. The interoperability feature lets devices from different ecosystems interact with each other, giving you the ...

So far, the only boron-like g factor has been measured with high precision for argon ions with a proton number Z of 18. However, the nucleus is not a point charge like the electron and its charge ...

Mar. 26, 2025 — Researchers have developed a molecular system for controlled release of iron. They integrated ferrocene, a molecular sandwich that encloses an iron atom, with a carbon 'nanohoop'.

Go behind the scenes with Jewett and her team at Argon 18 to see how testing aerodynamics can help age groupers ride faster ...