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Turning the LHC Ring into a New Physics Search Machine

By combining the LHC Beam Loss Monitoring (BLM) system with the LHC experiments, a powerful search machine for new physics beyond the standard model can be realised. The pair of final state protons in the central production process, exit the LHC beam vacuum chamber at locations determined by their f...

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Detalles Bibliográficos
Autores principales: Kalliokoski, Matti, Lämsä, Jerry W., Mieskolainen, Mikael, Orava, Risto
Lenguaje:eng
Publicado: 2016
Materias:
Acceso en línea:http://cds.cern.ch/record/2147698
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author Kalliokoski, Matti
Lämsä, Jerry W.
Mieskolainen, Mikael
Orava, Risto
author_facet Kalliokoski, Matti
Lämsä, Jerry W.
Mieskolainen, Mikael
Orava, Risto
author_sort Kalliokoski, Matti
collection CERN
description By combining the LHC Beam Loss Monitoring (BLM) system with the LHC experiments, a powerful search machine for new physics beyond the standard model can be realised. The pair of final state protons in the central production process, exit the LHC beam vacuum chamber at locations determined by their fractional momentum losses and will be detected by the BLM detectors. By mapping out the coincident pairs of the BLM identified proton candidates around the four LHC interaction regions, a scan for centrally produced particle states can be made independently of their decay modes.
id cern-2147698
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2016
record_format invenio
spelling cern-21476982023-03-15T19:13:10Zhttp://cds.cern.ch/record/2147698engKalliokoski, MattiLämsä, Jerry W.Mieskolainen, MikaelOrava, RistoTurning the LHC Ring into a New Physics Search MachineParticle Physics - ExperimentBy combining the LHC Beam Loss Monitoring (BLM) system with the LHC experiments, a powerful search machine for new physics beyond the standard model can be realised. The pair of final state protons in the central production process, exit the LHC beam vacuum chamber at locations determined by their fractional momentum losses and will be detected by the BLM detectors. By mapping out the coincident pairs of the BLM identified proton candidates around the four LHC interaction regions, a scan for centrally produced particle states can be made independently of their decay modes.By combining the LHC Beam Loss Monitoring (BLM) system with the LHC experiments, a powerful search machine for new physics beyond the standard model can be realised. The pair of final state protons in the central production process, exit the LHC beam vacuum chamber at locations determined by their fractional momentum losses and will be detected by the BLM detectors. By mapping out the coincident pairs of the BLM identified proton candidates around the four LHC interaction regions, a scan for centrally produced particle states can be made independently of their decay modes.arXiv:1604.05778oai:cds.cern.ch:21476982016-04-19
spellingShingle Particle Physics - Experiment
Kalliokoski, Matti
Lämsä, Jerry W.
Mieskolainen, Mikael
Orava, Risto
Turning the LHC Ring into a New Physics Search Machine
title Turning the LHC Ring into a New Physics Search Machine
title_full Turning the LHC Ring into a New Physics Search Machine
title_fullStr Turning the LHC Ring into a New Physics Search Machine
title_full_unstemmed Turning the LHC Ring into a New Physics Search Machine
title_short Turning the LHC Ring into a New Physics Search Machine
title_sort turning the lhc ring into a new physics search machine
topic Particle Physics - Experiment
url http://cds.cern.ch/record/2147698
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AT lamsajerryw turningthelhcringintoanewphysicssearchmachine
AT mieskolainenmikael turningthelhcringintoanewphysicssearchmachine
AT oravaristo turningthelhcringintoanewphysicssearchmachine