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ATLAS Tile calorimeter calibration and monitoring systems

The ATLAS Tile Calorimeter (TileCal) is the central section of the hadronic calorimeter of the ATLAS experiment and provides important information for reconstruction of hadrons, jets, hadronic decays of tau leptons and missing transverse energy. This sampling calorimeter uses steel plates as absorbe...

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Autor principal: Boumediene, Djamel Eddine
Lenguaje:eng
Publicado: 2017
Materias:
Acceso en línea:http://cds.cern.ch/record/2294916
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author Boumediene, Djamel Eddine
author_facet Boumediene, Djamel Eddine
author_sort Boumediene, Djamel Eddine
collection CERN
description The ATLAS Tile Calorimeter (TileCal) is the central section of the hadronic calorimeter of the ATLAS experiment and provides important information for reconstruction of hadrons, jets, hadronic decays of tau leptons and missing transverse energy. This sampling calorimeter uses steel plates as absorber and scintillating tiles as active medium. The light produced by the passage of charged particles is transmitted by wavelength shifting fibres to photomultiplier tubes (PMTs). PMT signals are then digitized at 40 MHz and stored on detector and are only transferred off detector once the first level trigger acceptance has been confirmed. The readout is segmented into about 5000 cells (longitudinally and transversally), each of them being read out by two PMTs in parallel. To calibrate and monitor the stability and performance of each part of the readout chain, a set of calibration systems is used. The TileCal calibration system comprises Cesium radioactive sources, laser, charge injection elements and an integrator based readout system. Combined information from all systems allows to monitor and equalize the calorimeter response at each stage of the signal production, from scintillation light to digitisation. Calibration runs are monitored from a data quality perspective and used as a cross-check for physics runs. Data quality in physics runs is monitored extensively and continuously. Problems are reported and immediately investigated. The data quality efficiency achieved was 99.6% in 2012, 100% in 2015 and 98.9% in 2016. Based on LHC Run 1 experience, several calibration systems were improved for Run 2. The lessons learned, the modifications, and the LHC Run 2 performance, between 2015 and 2017, are discussed, including the calibration, stability, absolute energy scale, uniformity and time resolution. These results show that the TileCal performance is within the design requirements and has given essential contributions to reconstructed objects and physics results.
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spelling cern-22949162019-09-30T06:29:59Zhttp://cds.cern.ch/record/2294916engBoumediene, Djamel EddineATLAS Tile calorimeter calibration and monitoring systemsParticle Physics - ExperimentThe ATLAS Tile Calorimeter (TileCal) is the central section of the hadronic calorimeter of the ATLAS experiment and provides important information for reconstruction of hadrons, jets, hadronic decays of tau leptons and missing transverse energy. This sampling calorimeter uses steel plates as absorber and scintillating tiles as active medium. The light produced by the passage of charged particles is transmitted by wavelength shifting fibres to photomultiplier tubes (PMTs). PMT signals are then digitized at 40 MHz and stored on detector and are only transferred off detector once the first level trigger acceptance has been confirmed. The readout is segmented into about 5000 cells (longitudinally and transversally), each of them being read out by two PMTs in parallel. To calibrate and monitor the stability and performance of each part of the readout chain, a set of calibration systems is used. The TileCal calibration system comprises Cesium radioactive sources, laser, charge injection elements and an integrator based readout system. Combined information from all systems allows to monitor and equalize the calorimeter response at each stage of the signal production, from scintillation light to digitisation. Calibration runs are monitored from a data quality perspective and used as a cross-check for physics runs. Data quality in physics runs is monitored extensively and continuously. Problems are reported and immediately investigated. The data quality efficiency achieved was 99.6% in 2012, 100% in 2015 and 98.9% in 2016. Based on LHC Run 1 experience, several calibration systems were improved for Run 2. The lessons learned, the modifications, and the LHC Run 2 performance, between 2015 and 2017, are discussed, including the calibration, stability, absolute energy scale, uniformity and time resolution. These results show that the TileCal performance is within the design requirements and has given essential contributions to reconstructed objects and physics results.ATL-TILECAL-SLIDE-2017-968oai:cds.cern.ch:22949162017-12-01
spellingShingle Particle Physics - Experiment
Boumediene, Djamel Eddine
ATLAS Tile calorimeter calibration and monitoring systems
title ATLAS Tile calorimeter calibration and monitoring systems
title_full ATLAS Tile calorimeter calibration and monitoring systems
title_fullStr ATLAS Tile calorimeter calibration and monitoring systems
title_full_unstemmed ATLAS Tile calorimeter calibration and monitoring systems
title_short ATLAS Tile calorimeter calibration and monitoring systems
title_sort atlas tile calorimeter calibration and monitoring systems
topic Particle Physics - Experiment
url http://cds.cern.ch/record/2294916
work_keys_str_mv AT boumedienedjameleddine atlastilecalorimetercalibrationandmonitoringsystems