Fragmentation Function in Non-Equilibrium QCD Using Closed-Time Path Integral Formalism
Abstract
In this paper we implement Schwinger-Keldysh closed-time path integral formalism in non-equilibrium QCD to the definition of Collins-Soper fragmentation function. We consider a high pT parton in QCD medium at initial time t0 with arbitrary non-equilibrium (non-isotropic) distribution function f(p) fragmenting to hadron. We formulate parton to hadron fragmentation function in non-equilibrium QCD in the light-cone quantization formalism. It may be possible to include final state interactions with the medium via modification of the Wilson lines in this definition of the non-equilibrium fragmentation function. This may be relevant to study hadron production from quark-gluon plasma at RHIC and LHC.
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