Improving methods and predictions at high-energy $e^+e^-$ colliders within collinear factorisation
Abstract
We illustrate how electron Parton Distribution Functions (PDFs) with next-to-leading collinear logarithmic accuracy must be employed in the context of perturbative predictions for high-energy -collision processes. In particular, we discuss how the renormalisation group equation evolution of such PDFs is affected by the presence of multiple fermion families and their respective mass thresholds, and by the dependences on the choices of the factorisation and renormalisation schemes. We study the impact of the uncertainties associated with the PDFs on physical cross sections, in order to arrive at realistic precision estimates for observables computed with collinear-factorisation formulae. We do so by presenting results for the production of a heavy neutral object as well as for and pairs, including next-to-leading-order effects of electroweak origin.
Keywords
Cite
@article{arxiv.2207.03265,
title = {Improving methods and predictions at high-energy $e^+e^-$ colliders within collinear factorisation},
author = {V. Bertone and M. Cacciari and S. Frixione and G. Stagnitto and M. Zaro and X. Zhao},
journal= {arXiv preprint arXiv:2207.03265},
year = {2022}
}
Comments
60 pages, 15 figures; one appendix has been added, that summarises previous results