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Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade

To be able to make a global parametric analysis and to have some basic understanding of the influence of critical parameters, scaling laws may be of help. For the design of the LHC insertion regions triplets, among the critical parameters the energy deposited in the superconducting triplet plays a f...

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Detalles Bibliográficos
Autores principales: Wildner, E, Borgnolutti, F, Cerutti, F, Mauri, M, Mereghetti, A, Todesco, E
Lenguaje:eng
Publicado: 2008
Materias:
Acceso en línea:http://cds.cern.ch/record/1123720
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author Wildner, E
Borgnolutti, F
Cerutti, F
Mauri, M
Mereghetti, A
Todesco, E
author_facet Wildner, E
Borgnolutti, F
Cerutti, F
Mauri, M
Mereghetti, A
Todesco, E
author_sort Wildner, E
collection CERN
description To be able to make a global parametric analysis and to have some basic understanding of the influence of critical parameters, scaling laws may be of help. For the design of the LHC insertion regions triplets, among the critical parameters the energy deposited in the superconducting triplet plays a fundamental role in avoiding magnet quench, too heavy load on the cryogenic system, and degradation of the materials due to radiation. The influence on energy deposition of the lay-out key parameters, such as the magnet apertures, the magnet lengths and positions, has been studied for beta* = 0.25 m
id cern-1123720
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2008
record_format invenio
spelling cern-11237202023-05-31T13:24:18Zhttp://cds.cern.ch/record/1123720engWildner, EBorgnolutti, FCerutti, FMauri, MMereghetti, ATodesco, EParametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 UpgradeAccelerators and Storage RingsTo be able to make a global parametric analysis and to have some basic understanding of the influence of critical parameters, scaling laws may be of help. For the design of the LHC insertion regions triplets, among the critical parameters the energy deposited in the superconducting triplet plays a fundamental role in avoiding magnet quench, too heavy load on the cryogenic system, and degradation of the materials due to radiation. The influence on energy deposition of the lay-out key parameters, such as the magnet apertures, the magnet lengths and positions, has been studied for beta* = 0.25 mLHC-PROJECT-Report-1127CERN-LHC-PROJECT-Report-1127oai:cds.cern.ch:11237202008-08-20
spellingShingle Accelerators and Storage Rings
Wildner, E
Borgnolutti, F
Cerutti, F
Mauri, M
Mereghetti, A
Todesco, E
Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title_full Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title_fullStr Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title_full_unstemmed Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title_short Parametric Study of Energy Deposition in the LHC Inner Triplet for the Phase 1 Upgrade
title_sort parametric study of energy deposition in the lhc inner triplet for the phase 1 upgrade
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/1123720
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AT borgnoluttif parametricstudyofenergydepositioninthelhcinnertripletforthephase1upgrade
AT ceruttif parametricstudyofenergydepositioninthelhcinnertripletforthephase1upgrade
AT maurim parametricstudyofenergydepositioninthelhcinnertripletforthephase1upgrade
AT mereghettia parametricstudyofenergydepositioninthelhcinnertripletforthephase1upgrade
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