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Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade
INFN is developing at LASA lab (INFN Milano, Italy) the prototypes of five corrector magnets, from skew quadrupole to dodecapole, which will equip the high-luminosity interaction regions of the High Luminosity-LHC. These magnets are based on a superferric design, which allows a relatively simple, mo...
| Autores principales: | , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2017
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/TASC.2017.2650957 http://cds.cern.ch/record/2276067 |
| _version_ | 1780955271129989120 |
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| author | Statera, Marco Volpini, Giovanni Alessandria, Franco Bellomo, Giovanni Broggi, Francesco Paccalini, Antonio Pedrini, Danilo Leone, Augusto Marinozzi, Vittorio Quadrio, Mauro Sorbi, Massimo Todero, Maurizio Uva, Carlo Fessia, Paolo Musso, Andrea Todesco, Ezio Toral, Fernando |
| author_facet | Statera, Marco Volpini, Giovanni Alessandria, Franco Bellomo, Giovanni Broggi, Francesco Paccalini, Antonio Pedrini, Danilo Leone, Augusto Marinozzi, Vittorio Quadrio, Mauro Sorbi, Massimo Todero, Maurizio Uva, Carlo Fessia, Paolo Musso, Andrea Todesco, Ezio Toral, Fernando |
| author_sort | Statera, Marco |
| collection | CERN |
| description | INFN is developing at LASA lab (INFN Milano, Italy) the prototypes of five corrector magnets, from skew quadrupole to dodecapole, which will equip the high-luminosity interaction regions of the High Luminosity-LHC. These magnets are based on a superferric design, which allows a relatively simple, modular, and easy to construct magnet. This activity takes place within the framework of a collaboration agreement between CERN and INFN. The first prototype, a sextupole, has been assembled in early 2016. We present here the results of the cold test, including the training performed at 4.2 K and the qualification at 2.2 K. We report also on the overall experience gained during its construction and test. An important aspect is represented by the analysis of the manufacturing tolerances of the mechanical pieces and the alignment accuracy achieved. These results will serve as a basis for the design of the next magnets, the octupole, and the decapole. Other important results concern the cold performance of the coil-to-coil electrical joints (especially critical in a magnet with a large number of coils), dynamic inductance measurements and quench studies. |
| id | oai-inspirehep.net-1611383 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2017 |
| record_format | invenio |
| spelling | oai-inspirehep.net-16113832019-09-30T06:29:59Zdoi:10.1109/TASC.2017.2650957http://cds.cern.ch/record/2276067engStatera, MarcoVolpini, GiovanniAlessandria, FrancoBellomo, GiovanniBroggi, FrancescoPaccalini, AntonioPedrini, DaniloLeone, AugustoMarinozzi, VittorioQuadrio, MauroSorbi, MassimoTodero, MaurizioUva, CarloFessia, PaoloMusso, AndreaTodesco, EzioToral, FernandoConstruction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity UpgradeAccelerators and Storage RingsINFN is developing at LASA lab (INFN Milano, Italy) the prototypes of five corrector magnets, from skew quadrupole to dodecapole, which will equip the high-luminosity interaction regions of the High Luminosity-LHC. These magnets are based on a superferric design, which allows a relatively simple, modular, and easy to construct magnet. This activity takes place within the framework of a collaboration agreement between CERN and INFN. The first prototype, a sextupole, has been assembled in early 2016. We present here the results of the cold test, including the training performed at 4.2 K and the qualification at 2.2 K. We report also on the overall experience gained during its construction and test. An important aspect is represented by the analysis of the manufacturing tolerances of the mechanical pieces and the alignment accuracy achieved. These results will serve as a basis for the design of the next magnets, the octupole, and the decapole. Other important results concern the cold performance of the coil-to-coil electrical joints (especially critical in a magnet with a large number of coils), dynamic inductance measurements and quench studies.oai:inspirehep.net:16113832017 |
| spellingShingle | Accelerators and Storage Rings Statera, Marco Volpini, Giovanni Alessandria, Franco Bellomo, Giovanni Broggi, Francesco Paccalini, Antonio Pedrini, Danilo Leone, Augusto Marinozzi, Vittorio Quadrio, Mauro Sorbi, Massimo Todero, Maurizio Uva, Carlo Fessia, Paolo Musso, Andrea Todesco, Ezio Toral, Fernando Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title | Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title_full | Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title_fullStr | Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title_full_unstemmed | Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title_short | Construction and Cold Test of the First Superferric Corrector Magnet for the LHC Luminosity Upgrade |
| title_sort | construction and cold test of the first superferric corrector magnet for the lhc luminosity upgrade |
| topic | Accelerators and Storage Rings |
| url | https://dx.doi.org/10.1109/TASC.2017.2650957 http://cds.cern.ch/record/2276067 |
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