Elastic scattering of a quark from a color field: longitudinal momentum exchange

Abstract

Perturbative QCD in the small Bjorken x limit can be formulated as an effective theory known as the Color Glass Condensate (CGC) formalism. The CGC formalism takes into account the dynamics of large gluon densities at small x and has been successfully applied to Deep Inelastic Scattering (DIS) and particle production in high energy hadronic and nuclear collisions in the small x kinematic region. The effective degrees of of freedom in CGC are Wilson lines which enter in the effective quark (and gluon) propagators and re-sum multiple soft scatterings from the small x gluon field of the target. It is however known that the CGC effective theory breaks down when one probes the moderately large x (high pt) kinematics where collinear factorization and DGLAP evolution of parton distribution functions should be the right framework. Here we propose a general framework which may allow one to eventually unify the two approaches and to calculate pQCD cross sections in both small and large Bjorken x regions. We take the first step towards this goal by deriving an expression for the quark propagator in a background field which includes scatterings from both small and large x modes of the gluon field of the target. We describe how this quark propagator can be used to calculate QCD structure functions F2 and FL at all x and thus generalize the dipole model of DIS. We outline this approach can also be used to extend the so-called hybrid approach to particle production in the forward rapidity region of high energy hadronic and nuclear collisions to all x and pt regions and speculate on how one may apply the same techniques to extend the McLerran-Venugopalan effective action used in high energy heavy ion collisions to include high pt physics.