On perturbative limits of quadrupole evolution in QCD at high energy

Abstract

We consider the perturbative (weak field) limit of the small x QCD evolution equation for quadrupole, the normalized trace of four Wilson lines in the fundamental representation, which appears in di-hadron angular correlation in high energy collisions. We linearize the quadrupole evolution equation and then expand the Wilson lines in powers of g\, Aμ where Aμ is the gauge field. The quadratic terms in the expansion ( g2\, A2) satisfy the BFKL equation as has been recently shown. We then consider the quartic terms ( g4\, A4) in the expansion and show that the linearized quadrupole evolution equation, written in terms of color charge density , reduces to the well-known BJKP equation for the imaginary part of four-reggeized gluon exchange amplitude. We comment on the possibility that the BJKP equation for the evolution of a n-reggeized gluon state can be obtained from the JIMWLK evolution equation for the normalized trace of n fundamental Wilson lines when non-linear (recombination) terms are neglected.