Benchmarking the Non-flow Contributions to the Elliptic Flow Parameter (v_2) in Proton-Proton Collisions
Abstract
This manuscript reports on the elliptic flow parameter, v_2, in proton-proton (p-p) collisions using PYTHIA8 event generator simulations. The typical Event Plane (EP) method v_2(EP) as the one used for the real data analysis has been adopted to measure the v_2 of particles composed of different quark flavors, and produced at mid-pseudorapidity |η| 1 at center-of-mass energy s = 200 GeV and s = 13 TeV. The event plane has been constructed using the soft charged particles with transverse momentum (p_T < 2 GeV/c) produced in various η ranges. The pseudorapidity gap technique (η) between the particle of interest and the soft charged particles contributed to the event plane constructions has been utilized to benchmark the non-flow contributions. The v_2π^,π^0, v_2J/,, K, D, B, and the v_2γdir show similar pattern dependence on the transverse momentum for the same η, at both s = 200 GeV and s = 13 TeV. At each center-of-mass energy, the measured v_2 shows obvious dependence on the quark flavor contents where v_2γdir v_2J/, , K, D, B v_2π^,π^0 for similar η gap. The measured v_2 shows slightly higher values at smaller s for particles of similar values of η gaps, particularly at small η gap. The measured v_2 for all particles shows systematic decreases with increasing the η gap as expected from the previous experimental results. Because PYTHIA8 simulations do not incorporate final state interactions, the v_2(EP) values reported here primarily reflect the non-flow contributions and its dependence on the quark contents, pseudorapidity gap as a function on pT at each center of mass-energy.
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