Azimuthal anisotropy: transition from hydrodynamic flow to jet suppression

Abstract

Measured 2nd and 4th azimuthal anisotropy coefficients v2,4(Npart), pT) are scaled with the initial eccentricity 2,4(Npart) of the collision zone and studied as a function of the number of participants Npart and the transverse momenta pT. Scaling violations are observed for pT 3 GeV/c, consistent with a pT2 dependence of viscous corrections and a linear increase of the relaxation time with pT. These empirical viscous corrections to flow and the thermal distribution function at freeze-out constrain estimates of the specific viscosity and the freeze-out temperature for two different models for the initial collision geometry. The apparent viscous corrections exhibit a sharp maximum for pT 3 GeV/c, suggesting a breakdown of the hydrodynamic ansatz and the onset of a change from flow-driven to suppression-driven anisotropy.