A factorization approach to next-to-leading-power threshold logarithms

Publication date

2015-06-03

Authors

Bonocore, D.
Laenen, E.ISNI 0000000419423919
Magnea, L.
Melville, S.
Vernazza, L.
White, C. D.

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

Abstract

Threshold logarithms become dominant in partonic cross sections when the selected final state forces gluon radiation to be soft or collinear. Such radiation factorizes at the level of scattering amplitudes, and this leads to the resummation of threshold logarithms which appear at leading power in the threshold variable. In this paper, we consider the extension of this factorization to include effects suppressed by a single power of the threshold variable. Building upon the Low-Burnett-Kroll-Del Duca (LBKD) theorem, we propose a decomposition of radiative amplitudes into universal building blocks, which contain all effects ultimately responsible for next-to-leading-power (NLP) threshold logarithms in hadronic cross sections for electroweak annihilation processes. In particular, we provide a NLO evaluation of the radiative jet function, responsible for the interference of next-to-soft and collinear effects in these cross sections. As a test, using our expression for the amplitude, we reproduce all abelian-like NLP threshold logarithms in the NNLO Drell-Yan cross section, including the interplay of real and virtual emissions. Our results are a significant step towards developing a generally applicable resummation formalism for NLP threshold effects, and illustrate the breakdown of next-to-soft theorems for gauge theory amplitudes at loop level.

Keywords

QCD Phenomenology, YAN CROSS-SECTION, DRELL-YAN, LARGE-X, SOFT CORRECTIONS, HIGGS-BOSON, K-FACTOR, RESUMMATION, RENORMALIZATION, BREMSSTRAHLUNG, QUARK

Citation

Bonocore, D, Laenen, E, Magnea, L, Melville, S, Vernazza, L & White, C D 2015, 'A factorization approach to next-to-leading-power threshold logarithms', Journal of High Energy Physics, no. 6, 008. https://doi.org/10.1007/JHEP06(2015)008