Generalized Loop Space and Evolution of the Light-Like Wilson Loops
arXiv:1410.2425 · doi:10.1142/S2010194515600289
Abstract
Equations of motion for the light-like QCD Wilson loops are studied in the generalized loop space (GLS) setting. To this end, the classically conformal-invariant non-local variations of the cusped Wilson exponentials lying (partially) on the light-cone are formulated in terms of the Fréchet derivative. The rapidity and renormalization-group behaviour of the gauge-invariant quantum correlation functions (in particular, the three-dimensional parton densities) are demonstrated to be connected to certain geometrical properties of the Wilson loops defined in the GLS.
Talk given at the QCD Evolution Workshop, 12 - 16 May 2014, Santa Fe (NM); 8 pp., 1 figure