Triangular flow in hydrodynamics and transport theory

In ultrarelativistic heavy-ion collisions, the Fourier decomposition of the relative azimuthal angle, Δϕ, distribution of particle pairs yields a large cos(3Δϕ) component, extending to large rapidity separations Δη>1. This component captures a significant portion of the ridge and shoulder structu...

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Bibliographic Details
Main Authors: Alver, Burak Han (Contributor), Gombeaud, Clément (Author), Luzum, Matthew (Author), Ollitrault, Jean-Yves (Author)
Other Authors: Massachusetts Institute of Technology. Laboratory for Nuclear Science (Contributor)
Format: Article
Language:English
Published: American Physical Society, 2011-01-20T16:45:30Z.
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Summary:In ultrarelativistic heavy-ion collisions, the Fourier decomposition of the relative azimuthal angle, Δϕ, distribution of particle pairs yields a large cos(3Δϕ) component, extending to large rapidity separations Δη>1. This component captures a significant portion of the ridge and shoulder structures in the Δϕ distribution, which have been observed after contributions from elliptic flow are subtracted. An average finite triangularity owing to event-by-event fluctuations in the initial matter distribution, followed by collective flow, naturally produces a cos(3Δϕ) correlation. Using ideal and viscous hydrodynamics and transport theory, we study the physics of triangular (v3) flow in comparison to elliptic (v2), quadrangular (v4), and pentagonal (v5) flow. We make quantitative predictions for v3 at RHIC and LHC as a function of centrality and transverse momentum. Our results for the centrality dependence of v3 show a quantitative agreement with data extracted from previous correlation measurements by the STAR collaboration. This study supports previous results on the importance of triangular flow in the understanding of ridge and shoulder structures. Triangular flow is found to be a sensitive probe of initial geometry fluctuations and viscosity.
France. Agence nationale de la recherche (Grant No. ANR-08-BLAN-0093-01)
United States. Dept. of Energy (Grant No. DE-FG02- 94ER40818)