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Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets

The Large Hadron Collider (LHC) needs more than 6000 superconducting corrector magnets. These must be sufficiently powerful, have enough margin, be compact and of low cost. The development of the 11 types of magnets was spread over several years and included the magnetic and mechanical design as wel...

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Detalles Bibliográficos
Autores principales: Allitt, M, Hilaire, A, Ijspeert, Albert, Karppinen, M, Mazet, J, Pérez, J, Salminen, J, Karmarkar, M, Puntambekar, A
Lenguaje:eng
Publicado: 2002
Materias:
Acceso en línea:http://cds.cern.ch/record/544632
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author Allitt, M
Hilaire, A
Ijspeert, Albert
Karppinen, M
Mazet, J
Pérez, J
Salminen, J
Karmarkar, M
Puntambekar, A
author_facet Allitt, M
Hilaire, A
Ijspeert, Albert
Karppinen, M
Mazet, J
Pérez, J
Salminen, J
Karmarkar, M
Puntambekar, A
author_sort Allitt, M
collection CERN
description The Large Hadron Collider (LHC) needs more than 6000 superconducting corrector magnets. These must be sufficiently powerful, have enough margin, be compact and of low cost. The development of the 11 types of magnets was spread over several years and included the magnetic and mechanical design as well as prototype building and testing. It gradually led to the systematic application of a number of interesting construction principles that allow to realize the above mentioned goals. The paper describes the techniques developed and presently used in practically all the LHC corrector magnets ranging from dipoles to dodecapoles.
id cern-544632
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2002
record_format invenio
spelling cern-5446322023-05-31T13:21:53Zhttp://cds.cern.ch/record/544632engAllitt, MHilaire, AIjspeert, AlbertKarppinen, MMazet, JPérez, JSalminen, JKarmarkar, MPuntambekar, APrinciples Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector MagnetsAccelerators and Storage RingsThe Large Hadron Collider (LHC) needs more than 6000 superconducting corrector magnets. These must be sufficiently powerful, have enough margin, be compact and of low cost. The development of the 11 types of magnets was spread over several years and included the magnetic and mechanical design as well as prototype building and testing. It gradually led to the systematic application of a number of interesting construction principles that allow to realize the above mentioned goals. The paper describes the techniques developed and presently used in practically all the LHC corrector magnets ranging from dipoles to dodecapoles.LHC-Project-Report-528CERN-LHC-Project-Report-528oai:cds.cern.ch:5446322002-03-06
spellingShingle Accelerators and Storage Rings
Allitt, M
Hilaire, A
Ijspeert, Albert
Karppinen, M
Mazet, J
Pérez, J
Salminen, J
Karmarkar, M
Puntambekar, A
Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title_full Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title_fullStr Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title_full_unstemmed Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title_short Principles Developed for the Construction of the High Performance, Low-cost Superconducting LHC corrector Magnets
title_sort principles developed for the construction of the high performance, low-cost superconducting lhc corrector magnets
topic Accelerators and Storage Rings
url http://cds.cern.ch/record/544632
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