Azimuthal anisotropy in a jet absorption model with fluctuating initial geometry in heavy ion collisions

Abstract

The azimuthal anisotropy due to path-length dependent jet energy loss is studied in a simple jet absorption model that include event by event fluctuating Glauber geometry. Significant anisotropy coefficients vn are observed for n=1,2 and 3, but they are very small for n>3. These coefficients are expected to result in a "ridge" for correlations between two independently produced jets. The correlations between the orientation of the nth-order anisotropy induced by jet absorption (nQP) and the nth-order participant plane (nPP) responsible for harmonic flow are studied. Tight correlations are observed for n=2 in mid-central collisions, but they weaken significantly for n≠2. The correlations are positive for n>=3, but become negative in central collisions for n>3. The dispersion between nQP and nPP is expect to break the factorization of the Fourier coefficients from two-particle correlation vn,n into the single particle vn, and has important implications for the high-pT ridge phenomena.