A massive variable flavour number scheme for the Drell-Yan process
Abstract
The prediction of differential cross-sections in hadron-hadron scattering processes is typically performed in a scheme where the heavy-flavour quarks () are treated either as massless or massive partons. In this work, a method to describe the production of colour-singlet processes which combines these two approaches is presented. The core idea is that the contribution from power corrections involving the heavy-quark mass can be numerically isolated from the rest of the massive computation. These power corrections can then be combined with a massless computation (where they are absent), enabling the construction of differential cross-section predictions in a massive variable flavour number scheme. As an example, the procedure is applied to the low-mass Drell-Yan process within the LHCb fiducial region, where predictions for the rapidity and transverse-momentum distributions of the lepton pair are provided. To validate the procedure, it is shown how the -dependent coefficient of a massless computation can be recovered from the massless limit of the massive one. This feature is also used to differentially extract the massless coefficient of the Drell-Yan process in the gluon-fusion channel.
Cite
@article{arxiv.2107.01226,
title = {A massive variable flavour number scheme for the Drell-Yan process},
author = {R. Gauld},
journal= {arXiv preprint arXiv:2107.01226},
year = {2022}
}
Comments
15 pages + citations, 5 figures. v2: matches published version in SciPost Physics, with the few minor changes/clarifications introduced in v2 detailed as part of the public peer review process https://scipost.org/submission/scipost_202107_00031v2/