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(2002)
Hydrodinamical description of ultrarelativistic heavy ion collisions
B. Back, R. Betts, M. Friedl, R. Ganz, K. Gulbrandsen, B. Holzman, W. Kucewicz, Willis Lin, J. Mülmenstädt, G. Nieuwenhuizen, R. Nouicer, H. Pernegger, M. Reuter, P. Sarin, V. Tsay, C. Vale, B. Wadsworth, A. Wuosmaa, B. Wyslouch (2000)
The PHOBOS silicon pad sensorsNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 447
B. Bearden, E. al. (2004)
Charged meson rapidity distributions in central Au+Au collisions at s(NN)**(1/2) = 200-GeVPhysical Review Letters, 94
P. Back, et al. (2001)
Charged particle pseudorapidity density distributions from Au+Au collisions at $\sqrt{s_{NN}}$ = 130-GeVPhysical Review Letters, 87
(2005)
Charged meson rapidity distributions in central Au plus Au collisions at root s(NN)=200 GeV
Xin-Nian Wang, M. Gyulassy (1991)
HIGING: A Monte Carlo model for multiple jet production in pp, pA, and AA collisions.Physical review. D, Particles and fields, 44 11
J. Blaizot (1999)
Signals of the quark-gluon plasma in nucleus-nucleus collisionsNuclear Physics, 661
R. Bindel, R. Baum, E. Garcia, A. Mignerey, L. Remsberg (2002)
Array of Cherenkov radiators for PHOBOS at RHICNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 488
J. Benecke, T. Chou, C. Yang, E. Yen (1969)
Hypothesis of Limiting Fragmentation in High-Energy CollisionsPhysical Review, 188
, et . al . , ( PHOBOS )
B. Back, et al. (2001)
Ratios of charged antiparticles-to-particles near mid-rapidity in Au + Au collisions at √sNN = 130 GeVPhysical Review Letters, 87
C. Albajar, M. Albrow, O. Allkofer, B. Andrieu, K. Ankoviak, R. Apsimon, A. Astbury, B. Aubert, C. Bacci, T. Bacon, N. Bains, G. Bauer, S. Beingessner, A. Bettini, A. Bézaguet, P. Biddulph, H. Bohn, A. Böhrer, R. Bonino, K. Bos, M. Botlo, B. Buschbeck, G. Busetto, A. Caner, P. Casoli, F. Cavanna, P. Cennini, S. Centro, F. Ceradini, D. Charlton, G. Ciapetti, S. Cittolin, E. Clayton, D. Cline, J. Colas, P. Colas, R. Conte, J. Coughlan, G. Cox, D. Dau, J. Debrion, M. Degiorgi, M. Negra, M. Demoulin, D. Denegri, H. Dibon, A. Diciaccio, F. Hedo, L. Dobrzyński, J. Dorenbosch, J. Dowell, K. Eggert, E. Eisenhandler, N. Ellis, P. Erhard, H. Faissner, I. Fensome, A. Ferrando, M. Fincke-Keeler, L. Fortson, T. Fuess, J. Garvey, S. Geer, A. Geiser, C. Ghiglino, Y. Giraud-Héraud, A. Givernaud, A. Gonidec, J. Gregory, W. Haynes, D. Holthuizen, M. Ikeda, W. Jank, M. Jimack, G. Jorat, D. Joyce, P. Kalmus, V. Karimäki, R. Keeler, I. Kenyon, A. Kernan, A. Khan, W. Kienzle, R. Kinnunen, M. Krammer, J. Kroll, D. Kryn, F. Lacava, S. Lammel, M. Landon, R. Leuchs, S. Levegrün, M. Lindgren, D. Linglin, P. Lipa, C. Markou, M. Markytan, M. Marquina, G. Maurin, S. McMahon, J. Mendiburu, A. Meneguzzo, J. Merlo, T. Meyer, T. Moers, M. Mohammadi, K. Morgan, H. Moser, A. Moulin, B. Mours, T. Muller, L. Naumann, P. Nédélec, M. Nikitas, A. Nisati, A. Norton, V. O’dell, G. Pancheri, F. Pauss, E. Petrolo, G. Mortari, E. Pietarinen, M. Pimiä, A. Placci, J. Porte, M. Preischl, R. Prosi, E. Radermacher, T. Redelberger, H. Reithler, J. Revol, D. Robinson, T. Rodrigo, J. Rohlf, C. Rubbia, G. Sajot, G. Salvini, J. Sass, D. Samyn, D. Schinzel, M. Schröder, A. Schwartz, W. Scott, C. Seez, T. Shah, I. Siotis, D. Smith, P. Sphicas, C. Stubenrauch, K. Sumorok, F. Szoncsó, A. Taurok, L. Taylor, I. Have, S. Tether, G. Thompson, E. Tscheslog, J. Tuominiemi, W. Guchte, A. Dijk, S. Veneziano, J. Vialle, T. Virdee, W. Schlippe, J. Vrána, V. Vuillemin, K. Wacker, G. Walzel, I. Wingerter, Xiaodan Wu, C. Wulz, M. Yvert, C. Zaccardelli, Igor Zacharov, L. Zanello, P. Zotto (1990)
A study of the general characteristics of proton-antiproton collisions at √s=0.2 to 0.9 TeVNuclear Physics, 335
B. Bearden, et al. (2001)
Pseudorapidity distributions of charged particles from Au+Au collisions at the maximum RHIC energyPhysical Review Letters, 88
W. Thomé, K. Eggert, K. Giboni, H. Lisken, P. Darriulat, P. Dittmann, M. Holder, K. McDonald, H. Albrecht, Theodore Modis, K. Tittel, H. Preissner, P. Allen, I. Derado, V. Eckardt, H. Gebauer, R. Meinke, P. Seyboth, S. Uhlig (1977)
Charged particle multiplicity distributions in pp collisions at ISR energiesNuclear Physics, 129
J. Bjorken (1983)
Highly Relativistic Nucleus-Nucleus Collisions: The Central Rapidity RegionPhysical Review D, 27
(2000)
The RHIC Zero Degree Calorimeter
B. Back, M. Baker, D. Barton, R. Betts, M. Ballintijn, A. Bickley, R. Bindel, A. Budzanowski, W. Busza, A. Carroll, M. Decowski, E. Garcia, N. George, K. Gulbrandsen, S. Gushue, C. Halliwell, J. Hamblen, G. Heintzelman, C. Henderson, D. Hofman, R. Hollis, R. Hołyński, B. Holzman, A. Iordanova, E. Johnson, J. Kane, J. Katzy, N. Khan, W. Kucewicz, P. Kulinich, C. Kuo, W. Lin, S. Manly, D. Mcleod, J. Michałowski, A. Mignerey, R. Nouicer, A. Olszewski, R. Pak, I. Park, H. Pernegger, C. Reed, L. Remsberg, M. Reuter, C. Roland, G. Roland, L. Rosenberg, J. Sagerer, P. Sarin, P. Sawicki, W. Skulski, S. Steadman, P. Steinberg, G. Stephans, M. Stodulski, A. Sukhanov, J.-L. Tang, R. Teng, A. Trzupek, C. Vale, G. Nieuwenhuizen, R. Verdier, B. Wadsworth, F. Wolfs, B. Wosiek, K. Woźniak, A. Wuosmaa, B. Wyslouch (2002)
Significance of the fragmentation region in ultrarelativistic heavy-ion collisions.Physical review letters, 91 5
R. Bindel, E. Garcia, A. Mignerey, L. Remsberg (2001)
Array of scintillator counters for PHOBOS at RHICNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 474
R. Nouicer, B. Back, R. Betts, K. Gulbrandsen, B. Holzman, W. Kucewicz, W. Lin, J. Mulmenstadt, G. Nieuwenhuizen, H. Pernegger, M. Reuter, P. Sarin, G. Stephans, V. Tsay, C. Vale, B. Wadsworth, A. Wuosmaa, B. Wyslouch (1998)
LAYOUT AND TESTS OF SILICON PAD DETECTORS FOR THE PHOBOS EXPERIMENT AT RHICNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 419
C. Adler, A. Denisov, E. García, M. Murray, H. Strobele, S. White (2000)
The RHIC zero-degree calorimetersNuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 499
B. Back, M. Baker, D. Barton, S. Basilev, R. Baum, R. Betts, A. Białas, R. Bindel, W. Bogucki, A. Budzanowski, W. Busza, A. Carroll, M. Ceglia, Y.H. Chang, A. Chen, T. Coghen, C. Connor, W. Czyz, B. Dabrowski, M. Decowski, M. Despet, P. Fita, J. Fitch, M. Friedl, K. Galuszka, R. Ganz, E. García, N. George, J. Godlewski, C. Gomes, E. Griesmayer, K. Gulbrandsen, S. Gushue, J. Halík, C. Halliwell, P. Haridas, A. Hayes, G. Heintzelman, C. Henderson, R. Hollis, R. Hołyński, D. Hofman, B. Holzman, E. Johnson, J. Kane, J. Katzy, W. Kita, J. Kotula, H. Kraner, W. Kucewicz, P. Kulinich, C. Law, M. Lemler, J. Ligocki, W. Lin, S. Manly, D. Mcleod, J. Michałowski, A. Mignerey, J. Mülmenstädt, M. Neal, R. Nouicer, A. Olszewski, R. Pak, I. Park, M. Patel, H. Pernegger, M. Pleško, C. Reed, L. Remsberg, M. Reuter, C. Roland, G. Roland, D. Ross, L. Rosenberg, J. Ryan, A. Sanzgiri, P. Sarin, P. Sawicki, J. Scaduto, J. Shea, J. Sinacore, W. Skulski, S. Steadman, G. Stephans, P. Steinberg, A. Stra̧czek, M. Stodulski, M. Strek, Z. Stopa, A. Sukhanov, K. Surowiecka, J.-L. Tang, R. Teng, A. Trzupek, C. Vale, G. Nieuwenhuizen, R. Verdier, B. Wadsworth, F. Wolfs, B. Wosiek, K. Wozniak, A. Wuosmaa, B. Wyslouch, K. Zalewski, P. Żychowski (2002)
The PHOBOS detector at RHICNuclear Physics, 698
B. Back, E. al., Phobos Collaboration (2002)
Centrality dependence of the charged particle multiplicity near mid-rapidity in Au + Au collisions at $\sqrt{s}$ (NN) = 130-GeV and 200-GeVPhysical Review C, 65
The Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory has delivered the collisions between Au nuclei at the highest center of mass energies achieved in the laboratory to date. PHOBOS is one of four experiments studying the these interactions. In this paper we will briefly describe the PHOBOS experiment, and discuss some of the current physics results obtained at $$\sqrt {s_{NN} } = 56$$ , 130 and 200 GeV: the systematic study of charged particle multiplicity as a function of pseudorapidity and centrality, measurements of antiparticle to particle ratios, and the hadron spectra as function of transverse momentum for both high and low pt.
Acta Physica Hungarica Series A, Heavy Ion Physics – Springer Journals
Published: Dec 12, 2009
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