Higgs Boson Plus Dijets: Higher Order Corrections
Abstract
The gluon fusion component of Higgs-boson production in association with dijets is of particular interest because it both (a) allows for a study of the CP-structure of the Higgs-boson couplings to gluons, and (b) provides a background to the otherwise clean study of Higgs-boson production through vector-boson fusion. The degree to which this background can be controlled, and the CP-structure of the gluon-Higgs coupling extracted, both depend on the successful description of the perturbative corrections to the gluon-fusion process. High Energy Jets (HEJ) provides all-order, perturbative predictions for multi-jet processes at hadron colliders at a fully exclusive, partonic level. We develop the framework of HEJ to include the process of Higgs-boson production in association with at least two jets. We discuss the logarithmic accuracy obtained in the underlying all-order results, and calculate the first next-to-leading corrections to the framework of HEJ, thereby significantly reducing the corrections which arise by matching to and merging fixed-order results. Finally, we compare predictions for relevant observables obtained with NLO and HEJ. We observe that the selection criteria commonly used for isolating the vector-boson fusion component suppresses the gluon-fusion component even further than predicted at NLO.
Keywords
Cite
@article{arxiv.1706.01002,
title = {Higgs Boson Plus Dijets: Higher Order Corrections},
author = {Jeppe R. Andersen and Tuomas Hapola and Andreas Maier and Jennifer M. Smillie},
journal= {arXiv preprint arXiv:1706.01002},
year = {2018}
}
Comments
45 pages, 21 figures; v2: updated reference; v3: discussion in section 3 restructured and expanded, plots corrected, matches journal version