Bulletin of the American Physical Society
2008 APS April Meeting and HEDP/HEDLA Meeting
Volume 53, Number 5
Friday–Tuesday, April 11–15, 2008; St. Louis, Missouri
Session D3: Quantum Chromodynamics |
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Sponsoring Units: DPF DNP Chair: Paul Mackenzie, Fermi National Accelerator Laboratory Room: Hyatt Regency St. Louis Riverfront (formerly Adam's Mark Hotel), St. Louis E |
Saturday, April 12, 2008 1:30PM - 2:06PM |
D3.00001: The Accomplishments of HERA Invited Speaker: The HERA accelerator stopped operation at the end of June, 2007, after 15 years of successfully delivering data to the ZEUS, H1, HERMES and HERA-B experiments. The main features and accomplishments of HERA will be described. The main results of the H1 and ZEUS experiments in the area of strong interaction physics will then be reviewed: structure function measurements, rapidity gap physics, jet physics and the extraction of the strong coupling constant. Recent theoretical developments in understanding the HERA data will also be discussed, with focus on the striking behavior of the small-x data. [Preview Abstract] |
Saturday, April 12, 2008 2:06PM - 2:42PM |
D3.00002: From the Age of Discovery to the Age of Exploration: Determining the Properties of the Quark-Gluon-Plasma Invited Speaker: In one of the most surprising discoveries of the past few years, experiments at the Relativistic Heavy Ion Collider (RHIC) have identified a new form of matter formed in nucleus-nucleus collisions at energy densities more than 100 times that of a cold atomic nucleus. Measurements and comparisons with relativistic hydrodynamic models indicate that the matter thermalizes in an unexpectedly short time, has an energy density at least 15 times larger than needed for color deconfinement, has a temperature about twice the critical temperature predicted by lattice QCD, and appears to exhibit collective motion with ideal hydrodynamic properties - a ``perfect liquid.'' The matter appears to flow with a near-zero viscosity-to-entropy ratio, lower than any previously observed fluid and close to a universal lower bound recently derived from string theory. All evidence so far indicates that the quark-gluon plasma formed in the collisions at RHIC is a strongly coupled plasma and not a dilute gaseous plasma as originally expected. However, a fundamental understanding of the medium seen in heavy-ion collisions at RHIC does not yet exist. The most important scientific challenge for the field in the next decade is the quantitative exploration of the new state of matter, $i.e$., to quantify its properties and to understand precisely how they emerge from the fundamental properties of QCD. This will include the search for the critical endpoint in the QCD phase diagram, the discovery of which is a distinct possibility in a series of low energy runs at RHIC. The next steps at RHIC will require new data that will, in turn, require enhanced capabilities of the RHIC detectors and accelerator. I will report on recent measurements and their implications for our current understanding of the hot and dense matter created at RHIC, as well as the scientific opportunities for an upgraded RHIC (RHIC II) in conjunction with upgrades to the large experiments, PHENIX and STAR. [Preview Abstract] |
Saturday, April 12, 2008 2:42PM - 3:18PM |
D3.00003: Lattice QCD Invited Speaker: I will review recent progress in using Lattice QCD to describe hadron physics including spectroscopy, hadron structure and heavy-flavor physics. [Preview Abstract] |
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