Author:
Moreno Eric A.,Cerri Olmo,Duarte Javier M.,Newman Harvey B.,Nguyen Thong Q.,Periwal Avikar,Pierini Maurizio,Serikova Aidana,Spiropulu Maria,Vlimant Jean-Roch
Abstract
AbstractWe investigate the performance of a jet identification algorithm based on interaction networks (JEDI-net) to identify all-hadronic decays of high-momentum heavy particles produced at the LHC and distinguish them from ordinary jets originating from the hadronization of quarks and gluons. The jet dynamics are described as a set of one-to-one interactions between the jet constituents. Based on a representation learned from these interactions, the jet is associated to one of the considered categories. Unlike other architectures, the JEDI-net models achieve their performance without special handling of the sparse input jet representation, extensive pre-processing, particle ordering, or specific assumptions regarding the underlying detector geometry. The presented models give better results with less model parameters, offering interesting prospects for LHC applications.
Funder
High Energy Physics
H2020 European Research Council
Publisher
Springer Science and Business Media LLC
Subject
Physics and Astronomy (miscellaneous),Engineering (miscellaneous)
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