On the modelling of energetic multi-jet QCD events

Daniel Turgeman; Michael Pitt; Itamar Roth; Ehud Duchovni

doi:10.1140/epjc/s10052-020-08758-2

On the modelling of energetic multi-jet QCD events

Daniel Turgeman^*, Michael Pitt, Itamar Roth, Ehud Duchovni

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Physics beyond the Standard Model (BSM) may be unveiled by studying events with a high number of outgoing jets, produced at the LHC with energies above the TeV scale (energetic multi-jet events). Such events are dominated by QCD processes, where the calculations rely on some sort of approximation. Therefore, it is important to develop a robust approach for modeling such events that could probe the existence of BSM signals. In this note, jet spatial distributions in energetic multi-jet processes were compared using several state-of-the-art MC event generators. Slight differences were found, indicating modelling limitations. Therefore, a data-driven technique for the estimation of processes with a final state that contains a large number of jets is proposed. This procedure can predict jet multiplicities up to a precision of 25% in energetic multi-jet events.

Original language	English
Article number	1187
Journal	European Physical Journal C
Volume	80
Issue number	12
DOIs	https://doi.org/10.1140/epjc/s10052-020-08758-2
State	Published - Dec 2020
Externally published	Yes

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title = "On the modelling of energetic multi-jet QCD events",

abstract = "Physics beyond the Standard Model (BSM) may be unveiled by studying events with a high number of outgoing jets, produced at the LHC with energies above the TeV scale (energetic multi-jet events). Such events are dominated by QCD processes, where the calculations rely on some sort of approximation. Therefore, it is important to develop a robust approach for modeling such events that could probe the existence of BSM signals. In this note, jet spatial distributions in energetic multi-jet processes were compared using several state-of-the-art MC event generators. Slight differences were found, indicating modelling limitations. Therefore, a data-driven technique for the estimation of processes with a final state that contains a large number of jets is proposed. This procedure can predict jet multiplicities up to a precision of 25% in energetic multi-jet events.",

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On the modelling of energetic multi-jet QCD events

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