Relative flow fluctuations as a probe of initial state fluctuations

Abstract

Elliptic flow, v2, and triangular flow, v3, are to a good approximation linearly proportional to the corresponding spatial anisotropies of the initial density profile, 2 and 3. Using event-by-event hydrodynamic simulations, we point out when deviations from this linear scaling are to be expected. When these deviations are negligible, relative vn fluctuations are equal to relative n fluctuations, and one can directly probe models of initial conditions using ratios of cumulants, for instance vn\4\/vn\2\. We argue that existing models of initial conditions tend to overestimate flow fluctuations in central Pb+Pb collisions, and to underestimate them in peripheral collisions. We make predictions for v3\6\ in noncentral Pb+Pb collisions, and for v3\4\ and v3\6\ in high-multiplicity p+Pb collisions.