The world’s first stable deployment of a cold-atom-based atomic clock on a moving maritime platform has been completed. The ...

New data from particle collisions at the Relativistic Heavy Ion Collider (RHIC), an "atom smasher" at the U.S. Department of ...

An international team led by Innsbruck quantum physicist Peter Zoller, together with the US company QuEra Computing, has directly observed a gauge field theory similar to models from particle physics ...

But the proton, according to Gell-Mann’s theory, would consist of three ... Hasted and McDowell propose to capture the quark-oxygen atom by launching a Venus’s-flytrap rocket that would ...

Despite being a key reason why we're here in the first place, the amount of CP violation predicted by the Standard Model of particle ... in particles made up of quark-antiquark pairs, called ...

Toponium particles, at least in theory, do not annihilate each other almost but instantly decay into a bottom quark and a W boson—one of two bosons responsible for the weak nuclear force.

and the absence of gravity from the model. These theoretical additional Higgs particles are expected to interact most strongly with the top quark. This has led researchers to pursue additional ...

Despite being a key reason why we're here in the first place, the amount of CP violation predicted by the Standard Model of particle ... in particles made up of quark-antiquark pairs, called ...

It’s about the same mass as a gold atom, except this is a single quark ... boson which helps us understand the electroweak theory and symmetry breaking better. Together with the Higgs boson, the top ...

This antimatter and hypernucleic atom consists of an antiproton, two antineutrons, and an antilambda particle. A lambda particle is a hyperon containing one strange quark, while the antilambda is ...