Nuclear pudding--to go.Detectors at a giant particle collider have recorded apparent evidence for an exotic form of nuclear matter that scientists compare to a slab of pudding moving at nearly the speed of light. Motes of that extraordinary stuff may have formed briefly at Brookhaven National Laboratory Brookhaven National Laboratory, scientific research center, at Upton (town of Brookhaven), Long Island, N.Y. It was founded in 1947 by Associated Universities, a management corporation sponsored by nine eastern U.S. universities. in Upton, N.Y., where scientists propel nuclei to enormous velocities in the Relativistic Heavy-Ion Collider (RHIC RHIC Relativistic Heavy Ion Collider (Brookhaven National Lab) RHIC Radio Hypnotic Intracerebral Control RHIC Radiation Hardened Integrated Circuit ). Last month at the Quark Matter 2004 conference in Oakland, Calif., RHIC scientists described new hints of what's known in physics-speak as a color glass condensate The color glass condensate is an extreme type of matter theorized to exist in atomic nuclei travelling near the speed of light. According to Einstein’s theory of relativity, a high-energy nucleus appears length contracted, or compressed, along its direction of motion. . According to relativity theory, normally spherical nuclei flatten at the speeds they attain within RHIC because matter contracts along its direction of motion. Some theorists have predicted that under such conditions, gluons Gluons The hypothetical force particles believed to bind quarks into “elementary” particles. Although theoretical models in which the strong interactions of quarks are mediated by gluons have been successful in predicting, interpreting, and , which are particles known to suddenly emerge and disappear within nuclei, would proliferate wildly. This added bulk of flattened gluon gluon, an elementary particle that mediates, or carries, the strong, or nuclear, force. In quantum chromodynamics (QCD), the quantum field theory of strong interactions, the interaction of quarks (to form protons, neutrons, and other elementary particles) is pudding, 50 to 1,000 times as dense as ordinary nuclear matter, would dominate each speeding nucleus. Last year, nuclei of heavy hydrogen and of gold were slammed against each other at RHIC. Now, scientists report that fewer particles than expected exited at right angles so as to form a right angle or right angles, as when one line crosses another perpendicularly. See also: Right from those smash ups, an indication that the colliding bodies are not acting like tiny billiard balls. Instead, the pattern of particles emerging from the collisions is what would be expected from puddinglike slabs of color glass condensate slapping together, says Brookhaven theoretical physicist Larry McLerran. |
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