Hardware demonstrator of a compact first-level muon track trigger for future hadron collider experiments

Single muon triggers are crucial for the physics programmes at hadron collider experiments. To be sensitive to electroweak processes, single muon triggers with transverse momentum thresholds down to 20 GeV and dimuon triggers with even lower thresholds are required. In order to keep the rates of the...

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Published in:Journal of instrumentation 2019-02, Vol.14 (2), p.P02027-P02027
Main Authors: Cieri, D., Abovyan, S., Danielyan, V., Fras, M., Gadow, P., Kortner, O., Kortner, S., Kroha, H., Müller, F., Nowak, S., Richter, P., Schmidt-Sommerfeld, K.
Format: Article
Language:English
Subjects:
Algorithms
Angular resolution
Chambers
Experiments
Hardware
Hough transformation
Large Hadron Collider
Muons
Spatial data
Spatial resolution
System on chip
Thresholds
Transverse momentum
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cited_by cdi_FETCH-LOGICAL-c283t-b8cc94a90e1e73c3f7b9a112c646ba55a5e14bf940c730ccdb1041e437ab6c0d3
cites cdi_FETCH-LOGICAL-c283t-b8cc94a90e1e73c3f7b9a112c646ba55a5e14bf940c730ccdb1041e437ab6c0d3
container_end_page P02027
container_issue 2
container_start_page P02027
container_title Journal of instrumentation
container_volume 14
creator Cieri, D.
Abovyan, S.
Danielyan, V.
Fras, M.
Gadow, P.
Kortner, O.
Kortner, S.
Kroha, H.
Müller, F.
Nowak, S.
Richter, P.
Schmidt-Sommerfeld, K.
description Single muon triggers are crucial for the physics programmes at hadron collider experiments. To be sensitive to electroweak processes, single muon triggers with transverse momentum thresholds down to 20 GeV and dimuon triggers with even lower thresholds are required. In order to keep the rates of these triggers at an acceptable level these triggers have to be highly selective, i.e. they must have small accidental trigger rates and sharp trigger turn-on curves. The muon systems of the LHC experiments and experiments at future colliders like FCC-hh will use two muon chamber systems for the muon trigger, fast trigger chambers like RPCs with coarse spatial resolution and much slower precision chambers like drift-tube chambers with high spatial resolution. The data of the trigger chambers are used to identify the bunch crossing in which the muon was created and for a rough momentum measurement while the precise measurements of the muon trajectory by the precision chambers are ideal for an accurate muon momentum measurement. A compact muon track finding algorithm is presented, where muon track candidates are reconstructed using a binning algorithm based on a 1D Hough Transform. The algorithm has been designed and implemented on a System-On-Chip device. A hardware demonstration using Xilinx Evaluation boards ZC706 has been set-up to prove the concept. The system has demonstrated the feasibility to reconstruct muon tracks with a good angular resolution, whilst satisfying latency constraints. The demonstrated track-reconstruction system, the chosen architecture, the achievements to date and future options for such a system will be discussed.
doi_str_mv 10.1088/1748-0221/14/02/P02027
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source Institute of Physics:Jisc Collections:IOP Publishing Read and Publish 2024-2025 (Reading List)
subjects Algorithms
Angular resolution
Chambers
Experiments
Hardware
Hough transformation
Large Hadron Collider
Muons
Spatial data
Spatial resolution
System on chip
Thresholds
Transverse momentum
title Hardware demonstrator of a compact first-level muon track trigger for future hadron collider experiments
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