Three-particle cumulant Study of Conical Emission

Abstract

We discuss the sensitivity of the three-particle azimuthal cumulant method for a search and study of conical emission in central relativistic A+A collisions. Our study is based on a multi-component Monte Carlo model which include flow background, Gaussian mono-jets, jet-flow, and Gaussian conical signals. We find the observation of conical emission is hindered by the presence of flow harmonics of fourth order (v4 ) but remains feasible even in the presence of a substantial background. We consider the use of probability cumulants for the suppression of 2nd order flow harmonics. We find that while probability cumulant significantly reduce v22 contributions, they also complicate the cumulant of jets, and conical emission. The use of probability cumulants is therefore not particularly advantageous in searches for conical emission. We find the sensitivity of the (density) cumulant method depends inextricably on strengths of v2 , v4 , background and non-Poisson character of particle production. It thus cannot be expressed in a simple form, and without specific assumptions about the values of these parameters.