Secondary Lund jet plane as a gluon-enriched sample

Abstract

We propose a new strategy to obtain a high-purity sample of gluon-initiated jets at the LHC. Our approach, inspired by the Lund jet plane picture, is to perform a dijet selection where the two jets are collinear to each other and their momentum fraction share is highly asymmetric, and to measure the primary Lund plane density of emissions of the subleading jet. The subleading jet in this topology is practically equivalent to a secondary Lund jet plane. We demonstrate by means of fxed-order calculations that such a simple setup yields (Born-level) gluon jet fractions of around 90% for the subleading jet for both quark- and gluon-initiated jets. This observation is confrmed using hadron-level Monte Carlo generated events. We also show that the extracted gluon purities are highly resilient to the overall colour structure of the event, to the favour of the hard-scattering process, and to the parton distribution functions. This strategy is well-suited for constraining the radiation pattern of gluon-initiated jets using a set of fducial cuts that can readily be tested at the LHC, without relying on taggers or statistical demixing.