“This data is the first time we study the lambda in the [atomic] nucleus ... are so plentiful in the nucleus, this diquark would then go in search of a third quark, ultimately bonding with ...

This view of the atomic nucleus changed when James Chadwick discovered ... with one being produced by a gluon radiated by a quark-antiquark pair. Physicists love a particle accelerator, and ...

And in cold quark matter, individual protons and neutrons cannot exist. So, atoms cannot exist. Only the quarks. If true, this would make neutron stars akin to incredibly enormous atomic nuclei.

This is the story of quark-gluon plasma. Take an atom, any atom. Peel away its whirling electron clouds to reveal its core, the atomic nucleus. Then, finely dice the nucleus into its base ...

The atomic nucleus is made up of protons and neutrons ... no one has been able to reproduce with quark-gluon models the results of nuclear experiments at low energies when only protons and ...

The last of these, the top quark, was theorized in 1973 by Makoto ... Intead, they stack into discrete shells inside the atomic nucleus. When these shells are filled, atoms become ultra-stable ...