Four-Loop Gluon Anomalous Dimension of General Lorentz Spin: Transcendental Part

Abstract

We consider the anomalous dimension γgg(3)(N) of the twist-two gluon operator of arbitrary Lorentz spin N in the quark flavor singlet sector of a general gauge theory at four loops and construct its contribution proportional to ζ(3) in analytic form by applying the Lenstra-Lenstra-Lov\'asz algorithm to the available low-N moments. We exploit generalized Gribov-Liptov reciprocity, establish new self-tuning relations for the anomalous dimension matrix of the singlet sector, and inject information from N=1,4 supersymmetric Yang-Mills theories. We also present the contribution to the rational part of γgg(3)(N) with color factor CF2nf2. Exact contributions to the four-loop splitting function Pgg(3)(x) hence resulting via inverse Mellin transformation help us to reduce theoretical uncertainties in scaling violations of parton distribution functions in QCD.