Jefferson Bjoraker scite author profile

The initial distribution of gluons at the very early times after a high energy heavy ion collision is described by the bulk scale Q s of gluon saturation in the nuclear wavefunction. The subsequent evolution of the system towards kinetic equilibrium is described by a non-linear Landau equation for the single particle distributions [1,2].In this paper, we solve this equation numerically for the idealized initial conditions proposed by Mueller, and study the evolution of the system to equilibrium. We discuss the sensitivity of our results on the dynamical screening of collinear divergences.In a particular model of dynamical screening, the convergence to the hydrodynamic limit is seen to be rapid relative to hydrodynamic time scales. The equilibration time, the initial temperature, and the chemical potential are shown to have a strong functional dependence on the initial gluon saturation scale Q s .

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Solution of the Boltzmann Equation for Gluons After a Heavy Ion Collision

Bjoraker¹,

Venugopalan

2001

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A non-linear Boltzmann equation 1 describing the time evolution of a partonic system in the central rapidity region after a heavy ion collision is solved numerically 2 . A particular model of the collinear logarithmic divergences due to small angle scattering 3,4 is employed in the numerical solution. The system is followed until it reaches kinetic equilibrium where the equilibration time, temperature and chemical potential are determined for both RHIC and LHC.

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Experimental study of theC12(Kstopped−,π0)
Ahmed¹,
Cui²,
Empl³
et al. 2003
Phys. Rev. C
17
1
13
0
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