Cargando…

Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors

The CMS-TOTEM Precision Proton Spectrometer (CT-PPS) is an approved project to add tracking and timing information at approximately $\pm$210~m from the interaction point around the CMS detector. It is designed to operate at high luminosity with up to 50 interactions per 25~ns bunch crossing to perfo...

Descripción completa

Detalles Bibliográficos
Autor principal: Gallinaro, Michele
Lenguaje:eng
Publicado: 2016
Materias:
Acceso en línea:https://dx.doi.org/10.1063/1.4977151
http://cds.cern.ch/record/2235051
_version_ 1780952757021179904
author Gallinaro, Michele
author_facet Gallinaro, Michele
author_sort Gallinaro, Michele
collection CERN
description The CMS-TOTEM Precision Proton Spectrometer (CT-PPS) is an approved project to add tracking and timing information at approximately $\pm$210~m from the interaction point around the CMS detector. It is designed to operate at high luminosity with up to 50 interactions per 25~ns bunch crossing to perform measurements of e.g. the quartic gauge couplings and search for rare exclusive processes. During 2016, CT-PPS took data in normal high-luminosity proton-proton LHC collisions. In the coming years, high radiation doses and large multiple-vertex interactions will represent difficult challenges that resemble those of the high-luminosity LHC program. A coordinated effort of detector upgrades with the goal of reaching the physics goals while mitigating the degradation effects is under way. Upgrades to the tracking and timing detectors are discussed.
id cern-2235051
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2016
record_format invenio
spelling cern-22350512021-05-03T20:30:18Zdoi:10.1063/1.4977151http://cds.cern.ch/record/2235051engGallinaro, MicheleUpgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking DetectorsDetectors and Experimental TechniquesThe CMS-TOTEM Precision Proton Spectrometer (CT-PPS) is an approved project to add tracking and timing information at approximately $\pm$210~m from the interaction point around the CMS detector. It is designed to operate at high luminosity with up to 50 interactions per 25~ns bunch crossing to perform measurements of e.g. the quartic gauge couplings and search for rare exclusive processes. During 2016, CT-PPS took data in normal high-luminosity proton-proton LHC collisions. In the coming years, high radiation doses and large multiple-vertex interactions will represent difficult challenges that resemble those of the high-luminosity LHC program. A coordinated effort of detector upgrades with the goal of reaching the physics goals while mitigating the degradation effects is under way. Upgrades to the tracking and timing detectors are discussed.The CMS-TOTEM Precision Proton Spectrometer (CT-PPS) is an approved project to add tracking and timing information at approximately $\pm$210~m from the interaction point around the CMS detector. It is designed to operate at high luminosity with up to 50 interactions per 25~ns bunch crossing to perform measurements of e.g. the quartic gauge couplings and search for rare exclusive processes. During 2016, CT-PPS took data in normal high-luminosity proton-proton LHC collisions. In the coming years, high radiation doses and large multiple-vertex interactions will represent difficult challenges that resemble those of the high-luminosity LHC program. A coordinated effort of detector upgrades with the goal of reaching the physics goals while mitigating the degradation effects is under way. Upgrades to the tracking and timing detectors are discussed.The CMS-TOTEM Precision Proton Spectrometer (CT-PPS) is an approved project to add tracking and timing information at approximately ±210 m from the interaction point around the CMS detector. It is designed to operate at high luminosity with up to 50 interactions per 25 ns bunch crossing to perform measurements of e.g. the quartic gauge couplings and search for rare exclusive processes. During 2016, CT-PPS took data in normal high-luminosity proton-proton LHC collisions. In the coming years, high radiation doses and large multiple-vertex interactions will represent difficult challenges that resemble those of the high-luminosity LHC program. A coordinated effort of detector upgrades with the goal of reaching the physics goals while mitigating the degradation effects is under way. Upgrades to the tracking and timing detectors are discussed.arXiv:1611.07431oai:cds.cern.ch:22350512016-11-22
spellingShingle Detectors and Experimental Techniques
Gallinaro, Michele
Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title_full Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title_fullStr Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title_full_unstemmed Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title_short Upgrades for the Precision Proton Spectrometer at the LHC: Precision Timing and Tracking Detectors
title_sort upgrades for the precision proton spectrometer at the lhc: precision timing and tracking detectors
topic Detectors and Experimental Techniques
url https://dx.doi.org/10.1063/1.4977151
http://cds.cern.ch/record/2235051
work_keys_str_mv AT gallinaromichele upgradesfortheprecisionprotonspectrometeratthelhcprecisiontimingandtrackingdetectors