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Performance of the ATLAS RPC detector and Level-1 muon barrel trigger at √(s)=13 TeV

Aad, G. ; Abbott, B. ; Abbott, D.C. ; [et al.]

IOP Publishing ; 2021

In: Journal of Instrumentation Vol. 16, No. 07 ( 2021-07-01), p. P07029-

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In: Journal of Instrumentation, IOP Publishing, Vol. 16, No. 07 ( 2021-07-01), p. P07029-

Abstract: The ATLAS experiment at the Large Hadron Collider (LHC) employs a trigger system consisting of a first-level hardware trigger (L1) and a software-based high-level trigger. The L1 muon trigger system selects muon candidates, assigns them to the correct LHC bunch crossing and classifies them into one of six transverse-momentum threshold classes. The L1 muon trigger system uses resistive-plate chambers (RPCs) to generate the muon-induced trigger signals in the central (barrel) region of the ATLAS detector. The ATLAS RPCs are arranged in six concentric layers and operate in a toroidal magnetic field with a bending power of 1.5 to 5.5 Tm. The RPC detector consists of about 3700 gas volumes with a total surface area of more than 4000 m 2 . This paper reports on the performance of the RPC detector and L1 muon barrel trigger using 60.8 fb -1 of proton-proton collision data recorded by the ATLAS experiment in 2018 at a centre-of-mass energy of 13 TeV. Detector and trigger performance are studied using Z boson decays into a muon pair. Measurements of the RPC detector response, efficiency, and time resolution are reported. Measurements of the L1 muon barrel trigger efficiencies and rates are presented, along with measurements of the properties of the selected sample of muon candidates. Measurements of the RPC currents, counting rates and mean avalanche charge are performed using zero-bias collisions. Finally, RPC detector response and efficiency are studied at different high voltage and front-end discriminator threshold settings in order to extrapolate detector response to the higher luminosity expected for the High Luminosity LHC.

Type of Medium: Online Resource

ISSN: 1748-0221

URL: Article

DOI: 10.1088/1748-0221/16/07/P07029

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2021

detail.hit.zdb_id: 2235672-1

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The ATLAS Fast TracKer system

Aad, G. ; Abbott, B. ; Abbott, D.C. ; [et al.]

IOP Publishing ; 2021

In: Journal of Instrumentation Vol. 16, No. 07 ( 2021-07-01), p. P07006-

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In: Journal of Instrumentation, IOP Publishing, Vol. 16, No. 07 ( 2021-07-01), p. P07006-

Abstract: The ATLAS Fast TracKer (FTK) was designed to provide full tracking for the ATLAS high-level trigger by using pattern recognition based on Associative Memory (AM) chips and fitting in high-speed field programmable gate arrays. The tracks found by the FTK are based on inputs from all modules of the pixel and silicon microstrip trackers. The as-built FTK system and components are described, as is the online software used to control them while running in the ATLAS data acquisition system. Also described is the simulation of the FTK hardware and the optimization of the AM pattern banks. An optimization for long-lived particles with large impact parameter values is included. A test of the FTK system with the data playback facility that allowed the FTK to be commissioned during the shutdown between Run 2 and Run 3 of the LHC is reported. The resulting tracks from part of the FTK system covering a limited η–ϕ region of the detector are compared with the output from the FTK simulation. It is shown that FTK performance is in good agreement with the simulation.

Type of Medium: Online Resource

ISSN: 1748-0221

URL: Article

DOI: 10.1088/1748-0221/16/07/P07006

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2021

detail.hit.zdb_id: 2235672-1

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Measurements of sensor radiation damage in the ATLAS inner detector using leakage currents

Aad, G. ; Abbott, B. ; Abbott, D.C. ; [et al.]

IOP Publishing ; 2021

In: Journal of Instrumentation Vol. 16, No. 08 ( 2021-08-01), p. P08025-

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In: Journal of Instrumentation, IOP Publishing, Vol. 16, No. 08 ( 2021-08-01), p. P08025-

Abstract: Non-ionizing energy loss causes bulk damage to the silicon sensors of the ATLAS pixel and strip detectors. This damage has important implications for data-taking operations, charged-particle track reconstruction, detector simulations, and physics analysis. This paper presents simulations and measurements of the leakage current in the ATLAS pixel detector and semiconductor tracker as a function of location in the detector and time, using data collected in Run 1 (2010–2012) and Run 2 (2015–2018) of the Large Hadron Collider. The extracted fluence shows a much stronger | z |-dependence in the innermost layers than is seen in simulation. Furthermore, the overall fluence on the second innermost layer is significantly higher than in simulation, with better agreement in layers at higher radii. These measurements are important for validating the simulation models and can be used in part to justify safety factors for future detector designs and interventions.

Type of Medium: Online Resource

ISSN: 1748-0221

URL: Article

DOI: 10.1088/1748-0221/16/08/P08025

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2021

detail.hit.zdb_id: 2235672-1

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