European Physical Journal C: Particles and Fields (Apr 2023)

Probing displaced top quark signature at the LHC Run 3

  • Jeremy Andrea,
  • Daniel Bloch,
  • Éric Conte,
  • Douja Darej,
  • Robin Ducrocq,
  • Emery Nibigira

DOI
https://doi.org/10.1140/epjc/s10052-023-11470-6
Journal volume & issue
Vol. 83, no. 4
pp. 1 – 28

Abstract

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Abstract In the context of prospective studies for searches of new physics at the LHC Run 3, this paper investigates the relevance of using top quarks produced from new long-lived particles, and detected in the tracker volume of the ATLAS and CMS experiments. Such a signature, referred to as displaced top quarks, leads to final states containing displaced vertices and a high multiplicity of displaced jets and tracks, thanks to the top quark decays. Therefore, it is a possible powerful tool for searching for new long-lived particles. Three simplified models based on supersymmetry are explicitly designed for the study of this signature. They differ according to the nature of the long-lived heavy particle which produces at least one top quark: electrically neutral or charged, coloured or non-coloured long-lived particle. For each model, a wide region of parameter space, consistent with a reasonable number of displaced top quarks decaying in a typical tracker volume has been probed. From this study, promising benchmarks are defined and experimental guidelines are suggested.