The Fully-Differential Gluon Beam Function at NNLO
Abstract
The fully-differential beam function (dBF) is a universal ingredient in resummed predictions of hadron collider observables that probe the full kinematics of the incoming parton from each colliding proton -- the virtuality and transverse momentum as well as the light-cone momentum fraction . In this paper we compute the matching coefficients between the unpolarized gluon dBF and the usual parton distribution functions (PDFs) at the two-loop order. For observables probing both the virtuality and transverse momentum of incoming gluons, our results provide the part of the NNLO singular cross section related to collinear initial-state radiation, and are required for the resummation of large logarithms through NLL. Further to this, the dBF is closely linked to the beam function appearing in a generalized version of threshold factorization, via a simple integration. By performing this integration for the two-loop gluon matching coefficients, we also obtain the corresponding quantities for the generalized threshold beam function.
Cite
@article{arxiv.2004.11915,
title = {The Fully-Differential Gluon Beam Function at NNLO},
author = {Jonathan R. Gaunt and Maximilian Stahlhofen},
journal= {arXiv preprint arXiv:2004.11915},
year = {2020}
}
Comments
21 pages, 0 figures