We study the equilbriation for gluons far from thermal equilibrium in relativistic kinetic theory with Color Glass Condensate (CGC) inspired initial distribution. Using a partonic cascade approach BAMPS with newly developed stochastic scheme for implementing the quantum statistics, we now simulate here a static gluonic matter with elastic collisions. We show that under such a elastic interaction driven case the possibility for gluons to condensate under over-populated initial condition, the kinetic evolution for gluon BEC growthing would be demenstrated. We also will discuss about the turbulent scaling solution for over-populated case, both particle cascade and energy cascade would be analysed.
|Preferred Track||Initial State Physics and Approach to Equilibrium|