Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions

The experimental insertions of the LHC make use of normal-conducting magnets to provide for part of the beam separation and to compensate the effect of two large spectrometer dipoles. Three different types with respect to the length were designed and are based on the same type of lamination. The mai...

Descripción completa

Detalles Bibliográficos
Autores principales: Ramberger, S, Bidon, S, Cornuet, D, Gérard, D, Gurov, D, Hans, O, Kalbreier, Willi, Kiselev, O, Morozov, I, Ogurtsov, A, Petrov, V, de Rijk, G, Ruvinsky, E, Sukhanov, A, Zhilayev, K
Lenguaje:eng
Publicado: 2006
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.1109/TASC.2005.869553
http://cds.cern.ch/record/970361
_version_ 1780910757346541568
author Ramberger, S
Bidon, S
Cornuet, D
Gérard, D
Gurov, D
Hans, O
Kalbreier, Willi
Kiselev, O
Morozov, I
Ogurtsov, A
Petrov, V
de Rijk, G
Ruvinsky, E
Sukhanov, A
Zhilayev, K
author_facet Ramberger, S
Bidon, S
Cornuet, D
Gérard, D
Gurov, D
Hans, O
Kalbreier, Willi
Kiselev, O
Morozov, I
Ogurtsov, A
Petrov, V
de Rijk, G
Ruvinsky, E
Sukhanov, A
Zhilayev, K
author_sort Ramberger, S
collection CERN
description The experimental insertions of the LHC make use of normal-conducting magnets to provide for part of the beam separation and to compensate the effect of two large spectrometer dipoles. Three different types with respect to the length were designed and are based on the same type of lamination. The main type of magnet MBXW has a core length of 3.4 m while the MBXWT and MBXWS magnets are 1.5 m and 0.75 m long versions respectively. The magnet design was done in collaboration between CERN and BINP and the dipole magnets are produced by BINP. So far all three MBXWS magnets, all three MBXWT magnets and fifteen of twenty-nine MBXW magnets have been manufactured and delivered to CERN. The report presents the main design issues and results of the acceptance tests including mechanical, electrical and magnetic field measurements.
id cern-970361
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2006
record_format invenio
spelling cern-9703612023-05-31T13:20:38Zdoi:10.1109/TASC.2005.869553http://cds.cern.ch/record/970361engRamberger, SBidon, SCornuet, DGérard, DGurov, DHans, OKalbreier, WilliKiselev, OMorozov, IOgurtsov, APetrov, Vde Rijk, GRuvinsky, ESukhanov, AZhilayev, KNormal-Conducting Separation and Compensation Dipoles for the LHC Experimental InsertionsAccelerators and Storage RingsThe experimental insertions of the LHC make use of normal-conducting magnets to provide for part of the beam separation and to compensate the effect of two large spectrometer dipoles. Three different types with respect to the length were designed and are based on the same type of lamination. The main type of magnet MBXW has a core length of 3.4 m while the MBXWT and MBXWS magnets are 1.5 m and 0.75 m long versions respectively. The magnet design was done in collaboration between CERN and BINP and the dipole magnets are produced by BINP. So far all three MBXWS magnets, all three MBXWT magnets and fifteen of twenty-nine MBXW magnets have been manufactured and delivered to CERN. The report presents the main design issues and results of the acceptance tests including mechanical, electrical and magnetic field measurements.LHC-PROJECT-Report-878CERN-LHC-Project-Report-878oai:cds.cern.ch:9703612006-05-19
spellingShingle Accelerators and Storage Rings
Ramberger, S
Bidon, S
Cornuet, D
Gérard, D
Gurov, D
Hans, O
Kalbreier, Willi
Kiselev, O
Morozov, I
Ogurtsov, A
Petrov, V
de Rijk, G
Ruvinsky, E
Sukhanov, A
Zhilayev, K
Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title_full Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title_fullStr Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title_full_unstemmed Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title_short Normal-Conducting Separation and Compensation Dipoles for the LHC Experimental Insertions
title_sort normal-conducting separation and compensation dipoles for the lhc experimental insertions
topic Accelerators and Storage Rings
url https://dx.doi.org/10.1109/TASC.2005.869553
http://cds.cern.ch/record/970361
work_keys_str_mv AT rambergers normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT bidons normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT cornuetd normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT gerardd normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT gurovd normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT hanso normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT kalbreierwilli normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT kiselevo normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT morozovi normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT ogurtsova normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT petrovv normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT derijkg normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT ruvinskye normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT sukhanova normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions
AT zhilayevk normalconductingseparationandcompensationdipolesforthelhcexperimentalinsertions

Ejemplares similares