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Momentum kick model description of the near-side ridge and jet quenching

2008; American Institute of Physics; Volume: 78; Issue: 6 Linguagem: Inglês

10.1103/physrevc.78.064905

1538-4497

Cheuk-Yin Wong,

Quantum Chromodynamics and Particle Interactions

In the momentum kick model, a near-side jet emerges near the surface, kicks medium partons, loses energy, and fragments into the trigger particle and fragmentation products. The kicked medium partons subsequently materialize as the observed ridge particles, which carry direct information on the magnitude of the momentum kick and the initial parton momentum distribution at the moment of jet--medium-parton collisions. The initial parton momentum distribution extracted from the STAR ridge data for central $\mathrm{Au}+\mathrm{Au}$ collisions at $\sqrt{{s}_{\mathit{NN}}}=200$ GeV has a thermal-like transverse momentum distribution and a rapidity plateau structure with a relatively flat distribution at mid-rapidity and sharp kinematic boundaries at large rapidities. Such a rapidity plateau structure may arise from particle production in flux tubes, as color charges and anticolor charges separate at high energies. The centrality dependence of the ridge yield and the degree of jet quenching can be consistently described by the momentum kick model.