The CSS Hamiltonian: high energy evolution of rapidity dependent observables

Abstract

We consider evolution of observables which depend on a small but fixed value of longitudinal momentum fraction x, to high rapidity, such that η> 1/x. We show that this evolution is not given by the JIMWLK (or BK) equation. We derive the evolution Hamiltonian - HCSS-JIMWLK which generates this evolution in the cases of dilute and dense projectile wave function. The two limits yield identical results for HCSS-JIMWLK. We show that the resulting evolution for the gluon TMD is identical to the (double logarithmic) perturbative Collins-Soper-Sterman evolution equation in the longitudinal resolution parameter at a fixed and very large transverse resolution.

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