Dynamical grooming meets LHC data
Abstract
In this work, we analyse the all-orders resummation structure of the momentum sharing fraction, , opening angle, , and relative transverse momentum, , of the splitting tagged by the dynamical grooming procedure in hadronic collisions. We demonstrate that their resummation does non-exponentiate and it is free of clustering logarithms. Then, we analytically compute the probability distributions of (, , ) up to next-to next-to-double logarithm accuracy (N2DL) in the narrow jet limit, including a matching to leading order in . On the phenomenological side, we perform an analytic-to-parton level comparison with Pythia and Herwig. We find that differences between the analytic and the Monte-Carlo results are dominated by the infra-red regulator of the parton shower. Further, we present the first analytic comparison to preliminary ALICE data and highlight the role of non-perturbative corrections in such low- regime. Once the analytic result is corrected by a phenomenologically determined non-perturbative factor, we find very good agreement with the data.
Cite
@article{arxiv.2103.06566,
title = {Dynamical grooming meets LHC data},
author = {Paul Caucal and Alba Soto-Ontoso and Adam Takacs},
journal= {arXiv preprint arXiv:2103.06566},
year = {2022}
}
Comments
Fixed typo on Eq.1.1