Thermalization of a color glass condensate and review of the "Bottom-Up" scenario

Andrej El, Zhe Xu, Carsten Greiner

Published 2007-12-21, updated 2008-10-31Version 2

Thermalization of a longitudinally expanding color glass condensate with Bjorken boost invariant geometry is investigated within microscopical parton cascade BAMPS. Our main focus lies on the detailed comparison of thermalization, observed in BAMPS with that suggested in the \BUp scenario. We demonstrate that the tremendous production of soft gluons via $gg \to ggg$, which is shown in the \BUp picture as the dominant process during the early preequilibration, will not occur in heavy ion collisions at RHIC and LHC energies, because the back reaction $ggg\to gg$ hinders the absolute particle multiplication. Moreover, different from the \BUp scenario, soft and hard gluons thermalize at the same time. The time scale of thermal equilibration obtained from BAMPS calculations is of order $\as^{-2} (\ln \as)^{-2} Q_s^{-1}$. After this time the gluon system exhibits nearly hydrodynamical behavior. The shear viscosity to entropy density ratio has weak dependence on $Q_s$ and lies close to the lower bound from the AdS/CFT conjecture.