Sub-leading flow modes in PbPb collisions at sNN = 2.76 TeV from HYDJET++ model

Abstract

Recent LHC results on the appearance of sub-leading flow modes in PbPb collisions at 2.76~TeV, related to initial-state fluctuations, are analyzed and interpreted within the HYDJET++ model. Using the newly introduced Principal Component Analysis (PCA) method applied to two-particle azimuthal correlations extracted from the model calculations, the leading and the sub-leading flow modes are studied as a function of the transverse momentum (pT) over a wide centrality range. The leading modes of the elliptic (v(1)2) and triangular (v(1)3) flow calculated within the HYDJET++ model reproduce rather well the v2\2\ and v3\2\ coefficients experimentally measured using the two-particle correlations. Within the pT ~3~GeV/c range where hydrodynamics dominates, the sub-leading flow effects are greatest at the highest pT of around 3~GeV/c. The sub-leading elliptic flow mode (v(2)2), which corresponds to n = 2 harmonic, has a small non-zero value and slowly increases from central to peripheral collisions, while the sub-leading triangular flow mode (v(2)3), which corresponds to n = 3 harmonic, is even smaller and does not depend on centrality. For n = ~2, the relative magnitude of the effect measured with respect to the leading flow mode shows a shallow minimum for semi-central collisions and increases for very central and for peripheral collisions. For n = ~3 case, there is no centrality dependence. The sub-leading flow mode results obtained from the HYDJET++ model are in a rather good agreement with the experimental measurements of the CMS Collaboration.