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Y. K. Lee; I. G. Bearden; D. Beavis; C. Besliu; Y. Blyakhman; J. Brzychczyk; B. Budick; H. Bggild; C. Chasman; C. H. Christensen; P. Christiansen; J. Cibor; R. Debbe; E. Enger; J. J. Gaardhje; K. Grotowski; K. Hagel; O. Hansen; A. Holm; A. K. Holme; H. Ito; E. Jakobsen; A. Jipa; J. I. Jrdre; F. Jundt; C. E. Jrgensen; T. Keutgen; E. J. Kim; T. Kozik; T. M. Larsen; J. H. Lee; G. Lvhiden; Z. Majka; A. Makeev; B. McBreen; M. Mikelsen; M. Murray; J. Natowitz; B. S. Nielsen; J. Norris; K. Olchanski; J. Olness; D. Ouerdane; R. P laneta; F. Rami; D. Rohrich; B. H. Samset; D. Sandberg; S. J. Sanders; R. A. Sheetz; Z. Sosin; P. Staszel; T. F. Thorsteinsen; y T. S. Tveter; F. Videbk; R. Wada; A. Wieloch; I. S. Zgura
Journal of the Korean Physical Society, 09/2003Journal Article
The BRAHMS probes the hot and dense nuclear matter at the RHIC which has reached its design energy of psNN = 200 GeV for Au + Au collisions. The BRAHMS uses magnetic spectrometers for hadrons covering a large phase space 0 < y < 4 with good particle identification and momentum resolution. A comprehensive investigation of multiplicity distributions of emitted charged particles is carried out. Ratios of yields of antiparticles to particles are also measured as a function of rapidity. Rapidity dependent net-proton yield indicates that substantial transparency has been achieved in these collisions. Transverse momentum spectra of charged hadrons are measured up to 5 GeV/c which indicates a significant medium eect when compared to nucleon + nucleon reference spectra. KCI Citation Count: 3
