The Lund jet plane

Author(s)

Soyez, Grégory; Salam, Gavin P.; Dreyer, Frederic

Abstract

Lund diagrams, a theoretical representation of the phase space within jets, have long been used in discussing parton showers and resummations. We point out that they can be created for individual jets through repeated Cambridge/Aachen declustering, providing a powerful visual representation of the radiation within any given jet. Concentrating here on the primary Lund plane, we outline some of its analytical properties, highlight its scope for constraining Monte Carlo simulations and comment on its relation with existing observables such as the zg variable and the iterated soft-drop multiplicity. We then examine its use for boosted electroweak boson tagging at high momenta. It provides good performance when used as an input to machine learning. Much of this performance can be reproduced also within a transparent log-likelihood method, whose underlying assumption is that different regions of the primary Lund plane are largely decorrelated. This suggests a potential for unique insight and experimental validation of the features being used by machine-learning approaches. Keywords: Jets, QCD Phenomenology

Date issued

2018-12

URI

http://hdl.handle.net/1721.1/119851

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Journal of High Energy Physics

Publisher

Springer Berlin Heidelberg

Citation

Dreyer, Frédéric A., et al. “The Lund Jet Plane.” Journal of High Energy Physics, vol. 2018, no. 12, Dec. 2018. © 2018 The Authors

Version: Final published version

ISSN

1029-8479