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| Total Pages | : 12 |
| Release | : 1994 |
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| Total Pages | : 16 |
| Release | : 1992 |
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An overview of the Relativistic Heavy Ion Collider (RHIC) and its experimental program is presented. The physics capabilities of STAR, one of two large experiments planned for RHIC, are described through simulations of the measurements anticipated in STAR. The STAR experiment will concentrate on hadronic observables in the search for the Quark-Gluon Plasma (QGP). An emphasis will be placed on event-by-event observables in an attempt to extract thermodynamic variables of individual events and to be able to identify special events characteristic of QGP formation.
| Author | : T.ET AL. LUDLAM |
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| Total Pages | : 26 |
| Release | : 2003 |
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At the request of DOE's Office of Nuclear Physics (ONP), Brookhaven National Laboratory (BNL) has created this planning document to assemble and summarize a planning exercise that addresses the core scientific thrust of the Relativistic Heavy Ion Collider (RHIC) for the next twenty years and the facilities operation plan that will support this program. The planning work was carried out by BNL in close collaboration with the RHIC user community and within budgetary guidelines for the next five years supplied by the ONP. The resulting plans were reviewed by the BNL High Energy and Nuclear Physics Program Advisory Committee (PAC) at a special RHIC planning meeting held in December 2003. Planning input from each of the four RHIC experimental collaborations was absolutely central to the preparation of this overall Laboratory plan. Each collaboration supplied two key documents, a five-year ''Beam Use Proposal'' and a ten-year ''Decadal Plan''. These plans are posted on the BNL website http://www.bnl.gov/henp/, along with other planning documents germane to this paper, such as the complete written reports from the August and December 2003 PAC meetings that considered the five-year and decadal planning documents of the four RHIC collaborations and offered advice and commentary on these plans. Only in these collaboration documents can the full physics impact of the RHIC program be seen and the full scope of the efforts put into this planning process be appreciated. For this reason, the maximum value of the present planning paper can only be realized by making frequent reference to the collaboration documents.
| Author | : Hans H Gutbrod |
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| Total Pages | : 704 |
| Release | : 1993-05-31 |
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| ISBN | : 9781461529415 |
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| Release | : 1987 |
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The main features of nuclear collisions that are to be measured at the Relativistic Heavy Ion Collider (RHIC) are briefly surveyed. The main questions to be addressed in studying such collisions are stated, along with some possible experimental ways of addressing these questions. The features of relativistic heavy ion collisions discussed are: macroscopic size and collective behavior, energy density, thermal equilibrium, initial temperature, chemical equilibrium, color deconfinement, and plasma expansion and hadronization. (LEW).
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| Total Pages | : 442 |
| Release | : 1990 |
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This report contains papers on the following topics: physics at RHIC; flavor flow from quark-gluon plasma; space-time quark-gluon cascade; jets in relativistic heavy ion collisions; parton distributions in hard nuclear collisions; experimental working groups, two-arm electron/photon spectrometer collaboration; total and elastic pp cross sections; a 4[pi] tracking TPC magnetic spectrometer; hadron spectroscopy; efficiency and background simulations for J/[psi] detection in the RHIC dimuon experiment; the collision regions beam crossing geometries; Monte Carlo simulations of interactions and detectors; proton-nucleus interactions; the physics of strong electromagnetic fields in collisions of relativistic heavy ions; a real time expert system for experimental high energy/nuclear physics; the development of silicon multiplicity detectors; a pad readout detector for CRID/tracking; RHIC TPC R D progress and goals; development of analog memories for RHIC detector front-end electronic systems; calorimeter/absorber optimization for a RHIC dimuon experiment; construction of a highly segmented high resolution TOF system; progress report on a fast, particle-identifying trigger based on ring-imaging and highly integrated electronics for a TPC detector.
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| Release | : 1988 |
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The Relativistic Heavy Ion Collider at Brookhaven will extend the present heavy ion capabilities of the AGS into an energy domain not available at any other laboratory within the foreseeable future. Operation of the AGS for heavy ion experiments started in October 1986 with the delivery of O/sup 8 +/ beams. Subsequently, the mass range was extended with the AGS delivering typically 2 x 108 Si/sup 14 +/ ions/pulse at a kinetic energy of 13.8 GeV/u. Completion of the AGS booster synchrotron in 1991 will extend the mass range to the heaviest ions, typically 179Au, with 238U a definite possibility. The acceleration of heavy ions to very high energies at Brookhaven was already considered for the ISABELLE/CBA project. After its cancellation, the realization of a dedicated heavy ion collider in the vacant tunnel became feasible and the design objectives were defined in 1983 by a Task Force on Relativistic Heavy Ion Physics. The study of such a heavy ion accelerator/collider was initially supported by generic RandD funds and later on as part of the Brookhaven Exploratory Research Program. The results of this multi-year RandD effort were presented in the May 1986 Conceptual Design Report (CDR). This document remains valid in most respects but progress resulting from two years of intensive RandD work, now supported with direct DOE funds, in the areas of accelerator physics and superconducting magnet technology resulted in a few design improvements. The present paper summarizes the major features of the RHIC design with emphasis on those aspects of particular interest to the future user and it concludes with a short discussion of the superconducting magnet RandD program. 10 refs., 15 figs., 3 tabs.
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| Total Pages | : 36 |
| Release | : 1990 |
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This introductory talk contains a brief discussion of future experiments at RHIC related to physics of superdense matter. In particular, we consider the relation between space-time picture of the collision and spectra of the observed secondaries. We discuss where one should look for QGP signals and for possible manifestation of the phase transition. We pay more attention to a rather new topic: hadron modification in the gas phase, which is interesting by itself as a collective phenomenon, and also as a precursor indicating what happens with hadrons near the phase transition. We briefly review current understanding of the photon physics, dilepton production, charm and strangeness and J/[psi] suppression. At the end we try to classify all possible experiments. 47 refs., 3 figs.
| Author | : Jean-Paul Blaizot |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 526 |
| Release | : 2012-12-06 |
| Genre | : Science |
| ISBN | : 9401002673 |
Many facets of quantum chromodynamics (QCD) are relevant to the in-depth discussion of theoretical and experimental aspects of high-energy nucleus-nucleus collisions. Exciting phenomena are being discovered in such ultrarelativistic heavy ion collisions, notably the increasingly important role of deconfined quark-gluon matter created in the early stage. The book contains lectures on the physics of hot dense matter, the expected phase transitions and colour superconductivity, recent developments in the treatment of nonlinear effects at large parton densities, fundamental issues in the phenomenology of ultrarelativistic heavy collisions. The latest data on heavy ion collisions are also presented. A unique collection of lectures on the many facets of QCD relevant to the physics of hot dense matter.
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| Total Pages | : 94 |
| Release | : 2004 |
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We review the physics of nuclear matter at high energy density and the experimental search for the Quark-Gluon Plasma at the Relativistic Heavy Ion Collider (RHIC). The data obtained in the first three years of the RHIC physics program provide several lines of evidence that a novel state of matter has been created in the most violent, head-on collisions of Au nuclei at (square root)s = 200 GeV. Jet quenching and global measurements show that the initial energy density of the strongly interacting medium generated in the collision is about two orders of magnitude larger than that of cold nuclear matter, well above the critical density for the deconfinement phase transition predicted by lattice QCD. The observed collective flow patterns imply that the system thermalizes early in its evolution, with the dynamics of its expansion consistent with ideal hydrodynamic flow based on a Quark-Gluon Plasma equation of state.
