Putting limits on the top quark.Putting limits on the top quark top quark n. Abbr. t A hypothetical quark with a charge of + 2/3 and a mass of 360,000 times that of the electron. See Table at subatomic particle. Particle physicists have so far found evidence in the debris from particle collisions for five species of quarks: up, down, strange, charm and bottom. But the so-called standard model of particle physics predicts a sixth species: the top quark. Researchers working with a detector at the Fermi National Accelerator Laboratory's Tevatron collider col`lid´er n. 1. (Physics) a antimatter Substance composed of elementary particles having the mass and electric charge of ordinary matter (such as electrons and protons) but for which the charge and related magnetic properties are opposite in sign. counterparts during last year's Tevatron expriment. Physicists are puzzled by why the top quark should have such a large mass. At roughly 0.4 GeV, the up and down quarks, from which one can build protons and neutrons, are relatively light. The proton mass itself is a little less than 1 GeV. The strange quark has a mass of about 0.5 GeV, the charm quark about 1.5 GeV and the bottom quark about 4.5 GeV. The apparent trend of heavier quarks being three times more massive than their predecessors suggests that the top quark ought to have a mass around 13.5 GeV. But every search so far has found no top quark, pushing its expected mass ever higher. If the top quark has a mass of 130 GeV or less, then researchers at Fermilab may yet catch a glimpse Verb 1. catch a glimpse - see something for a brief time catch sight, get a look see - perceive by sight or have the power to perceive by sight; "You have to be a good observer to see all the details"; "Can you see the bird in that tree?"; "He is blind--he of this elusive beast. "This puts the top quark within the reach of the Tevatron if proposed upgrades are implemented," says Fermilab's Hans B. Jensen. And then there were three By observing the many ways in which a particle known as the Z[degree] can decay into other particles, researchers working with the ALEPH detector at the Large Electron-Positron collider “LEP” redirects here. For other uses, see LEP (disambiguation). The Large Electron-Positron Collider (LEP) was one of the largest particle accelerators ever made. It was built at CERN, a multi-national center for research in nuclear and particle physics. in Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. , Switzerland, have now obtained the msot stringent limit yet excluding the existence of a fourth generation of elementary particles. Their results firmly establish that the elementary particles of matter fall into only three sets, each one characterized by a particular type of neutrino neutrino (n  trē`nō) [Ital.,=little neutral (particle)], elementary particle with no electric charge and a very small mass emitted during the decay of certain other particles. (SN: 10/21/89, p.260).
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