These results demonstrate the nature of quarks as relativistic neutrinos forming rotating equilateral triangles and ...

In around 13 out of every 100 billion kaon decays, however, the result is an antineutrino, a neutrino, and an unstable particle made of another flavor of quark and an antiquark called a pion.

the up quark will transform into a down quark and release an electron and a neutrino as byproducts. This transformation flips the proton into a neutron, and is how the sun can produce helium, carbon ...

In the past, this approach resulted in the prediction of the charm quark, and a heavy top quark, well before colliders could produce ... assumed that neutrinos were massless and therefore incapable of ...

The top quark, in particular ... which subsequently decays into either an electron or a muon and an associated neutrino. The result has a statistical significance of 5.0 standard deviations ...

The new up quark moves away from the emitted \(W ... boson decays, forming an electron (charge =\(-1\)) and an electron neutrino (charge = 0). The proton, electron, and the antineutrino ...