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Does parton saturation at high density explain hadron multiplicities at RHIC ?

R. Baier, A. H. Mueller, D. Schiff, D. T. Son

Abstract

We discuss the recent claim that hadron multiplicities measured at RHIC energies are directly described in terms of gluon degrees of freedom fixed from the initial conditions of central heavy ion collisions. The argument is based on the parton saturation scenario expected to be valid at high parton densities and on the assumption of conserved gluon number. Alternatively we conjecture that "bottom-up" equilibration before hadronization modifies this picture, due to nonconservation of the number of gluons.

Does parton saturation at high density explain hadron multiplicities at RHIC ?

Abstract

We discuss the recent claim that hadron multiplicities measured at RHIC energies are directly described in terms of gluon degrees of freedom fixed from the initial conditions of central heavy ion collisions. The argument is based on the parton saturation scenario expected to be valid at high parton densities and on the assumption of conserved gluon number. Alternatively we conjecture that "bottom-up" equilibration before hadronization modifies this picture, due to nonconservation of the number of gluons.

Paper Structure

This paper contains 28 equations, 2 figures.

Figures (2)

  • Figure 1: Characteristic momentum scales for the "bottom-up" scenario.
  • Figure 2: The scaled pseudorapidity density for $\vert \eta \vert < 1$ as a function of $N_{part}$ at $\sqrt{s} = 130~GeV$ and $200 ~GeV$. Data are from the PHOBOS Collaboration, and curves from the "bottom-up" scenario, as described in the text.