Non linearities in the harmonic spectrum of heavy ion collisions with ideal and viscous hydrodynamics

Abstract

We determine the non-linear hydrodynamic response to geometrical fluctuations in heavy ion collisions using ideal and viscous hydrodynamics. This response is characterized with a set of non-linear response coefficients that determine, for example, the v5 that is produced by an ε2 and an ε3. We analyze how viscosity damps both the linear and non-linear response coefficients, and provide an analytical estimate that qualitatively explains most of the trends observed in more complete simulations. Subsequently, we use these nonlinear response coefficients to determine the linear and non-linear contributions to v1, v4 and v5. For viscous hydrodynamics the nonlinear contribution is dominant for v4, v5 and higher harmonics. For v1, the nonlinear response constitutes an important 25% correction in mid-central collisions. The nonlinear response is also analyzed as a function of transverse momentum for v1, v4 and v5. Finally, recent measurements of correlations between event-planes of different harmonic orders are discussed in the context of non-linear response.