NLO Productions of ω and K0 S with a Global Extraction of the Jet Transport Parameter in Heavy Ion collisions

Abstract

In this work, we pave the way to calculate the productions of ω and K0 S mesons at large pT in p+p and A+A collisions at the RHIC and the LHC. The ω meson fragmentation functions (FFs) in vacuum at next-to-leading order (NLO) are obtained by evolving NLO DGLAP evolution equations with rescaled ω FFs at initial scale Q02=1.5 GeV2 from a broken SU(3) model, and the K0 S FFs in vacuum are taken from AKK08 parametrization directly. Within the framework of the NLO pQCD improved parton model, we make good descriptions of the experimental data on ω and K0 S in p+p both at the RHIC and the LHC. With the higher-twist approach to take into account the jet quenching effect by medium modified FFs, the nuclear modification factors for ω meson and K0 S meson at the RHIC and the LHC are presented with different sets of jet transport coefficient q0. Then we make a global extraction of q0 at the RHIC and the LHC by confronting our model calculations with all available data on 6 identified mesons: π0, η, 0, φ, ω, and K0 S. The minimum value of the total 2/d.o.f for productions of these mesons gives the best value of q0=0.5 GeV2/fm for Au+Au collisions with s NN=200 GeV at the RHIC, and q0=1.2 GeV2/fm for Pb+Pb collisions with s NN=2.76 TeV at the LHC respectively, with the QGP spacetime evolution given by an event-by-event viscous hydrodynamics model IEBE-VISHNU. With these global extracted values of q0, the nuclear modification factors of π0, η, 0, φ, ω, and K0 S in A+A collisions are presented, and predictions of yield ratios such as ω/π0 and K0 S/π0 at large pT in heavy-ion collisions at the RHIC and the LHC are provided.