Identified particles at large transverse momenta in STAR in Au+Au collisions @ sqrt(sNN) = 200 GeV
Abstract
We report measurements of the ratios of identified hadrons (pi,K,p,Lambda) in Au+Au collisions at sqrt(sNN) = 200 GeV as a function of both collision centrality and transverse momentum (pT). Ratios of anti-baryon to baryon yields are independent of pT within 2<pT <6 GeV/c indicating that, for such a range, our measurements are inconsistent with theoretical pQCD calculations predicting a decrease due to a stronger contribution from valence quark scattering. For both strange and non-strange species, a strong baryon enhancement relative to meson yields is observed as a function of collision centrality in this intermediate pT region, leading to p/pi and Lambda/K ratios greater than unity. The nuclear modification factor, Rcp (central relative to peripheral collisions), is used to illustrate the interplay between jet quenching and hadron production. The physics implications of these measurements are discussed with reference to different theoretical models.
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