Measurement of KS0 and K*0 in p+p, d+Au, and Cu+Cu collisions at s_NN=200 GeV

Abstract

The PHENIX experiment at the Relativistic Heavy Ion Collider has performed a systematic study of KS0 and K*0 meson production at midrapidity in p+p, d+Au, and Cu+Cu collisions at s_NN=200 GeV. The KS0 and K*0 mesons are reconstructed via their KS0 → π0(→ γγ)π0(→γγ) and K*0 → Kπ decay modes, respectively. The measured transverse-momentum spectra are used to determine the nuclear modification factor of KS0 and K*0 mesons in d+Au and Cu+Cu collisions at different centralities. In the d+Au collisions, the nuclear modification factor of KS0 and K*0 mesons is almost constant as a function of transverse momentum and is consistent with unity showing that cold-nuclear-matter effects do not play a significant role in the measured kinematic range. In Cu+Cu collisions, within the uncertainties no nuclear modification is registered in peripheral collisions. In central collisions, both mesons show suppression relative to the expectations from the p+p yield scaled by the number of binary nucleon-nucleon collisions in the Cu+Cu system. In the pT range 2--5 GeV/c, the strange mesons (KS0, K*0) similarly to the φ meson with hidden strangeness, show an intermediate suppression between the more suppressed light quark mesons (π0) and the nonsuppressed baryons (p, p). At higher transverse momentum, pT>5 GeV/c, production of all particles is similarly suppressed by a factor of ≈ 2.