Soft Functions for Generic Jet Algorithms and Observables at Hadron Colliders
Abstract
We introduce a method to compute one-loop soft functions for exclusive -jet processes at hadron colliders, allowing for different definitions of the algorithm that determines the jet regions and of the measurements in those regions. In particular, we generalize the -jettiness hemisphere decomposition of [Jouttenus 2011] in a manner that separates the dependence on the jet boundary from the observables measured inside the jet and beam regions. Results are given for several factorizable jet definitions, including anti-, XCone, and other geometric partitionings. We calculate explicitly the soft functions for angularity measurements, including jet mass and jet broadening, in jet and explore the differences for various jet vetoes and algorithms. This includes a consistent treatment of rapidity divergences when applicable. We also compute analytic results for these soft functions in an expansion for a small jet radius . We find that the small- results, including corrections up to , accurately capture the full behavior over a large range of .
Cite
@article{arxiv.1704.08262,
title = {Soft Functions for Generic Jet Algorithms and Observables at Hadron Colliders},
author = {Daniele Bertolini and Daniel Kolodrubetz and Duff Neill and Piotr Pietrulewicz and Iain W. Stewart and Frank J. Tackmann and Wouter J. Waalewijn},
journal= {arXiv preprint arXiv:1704.08262},
year = {2017}
}
Comments
33 pages + appendices, 17 figures, v2: journal version, v3: fixed typo in eq.(4.37)