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High Luminosity LHC: challenges and plans

The Large Hadron Collider (LHC) is one of the largest scientific instruments ever built. Since opening up a new energy frontier for exploration in 2010, it has gathered a global user community working in fundamental particle physics and the physics of hadronic matter at extreme temperature and densi...

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Autores principales: Arduini, G, Barranco, J, Bertarelli, A, Biancacci, N, Bruce, R, Brüning, O, Buffat, X, Cai, Y, Carver, L R, Fartoukh, S, Giovannozzi, M, Iadarola, G, Li, K, Lechner, A, Medrano, L Medina, Métral, E, Nosochkov, Y, Papaphilippou, Y, Pellegrini, D, Pieloni, T, Qiang, J, Redaelli, S, Romano, A, Rossi, L, Rumolo, G, Salvant, B, Schenk, M, Tambasco, C, Tomás, R, Valishev, S, Veken, F F Van der
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: JINST 2016
Materias:
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/11/12/C12081
http://cds.cern.ch/record/2255815
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author Arduini, G
Barranco, J
Bertarelli, A
Biancacci, N
Bruce, R
Brüning, O
Buffat, X
Cai, Y
Carver, L R
Fartoukh, S
Giovannozzi, M
Iadarola, G
Li, K
Lechner, A
Medrano, L Medina
Métral, E
Nosochkov, Y
Papaphilippou, Y
Pellegrini, D
Pieloni, T
Qiang, J
Redaelli, S
Romano, A
Rossi, L
Rumolo, G
Salvant, B
Schenk, M
Tambasco, C
Tomás, R
Valishev, S
Veken, F F Van der
author_facet Arduini, G
Barranco, J
Bertarelli, A
Biancacci, N
Bruce, R
Brüning, O
Buffat, X
Cai, Y
Carver, L R
Fartoukh, S
Giovannozzi, M
Iadarola, G
Li, K
Lechner, A
Medrano, L Medina
Métral, E
Nosochkov, Y
Papaphilippou, Y
Pellegrini, D
Pieloni, T
Qiang, J
Redaelli, S
Romano, A
Rossi, L
Rumolo, G
Salvant, B
Schenk, M
Tambasco, C
Tomás, R
Valishev, S
Veken, F F Van der
author_sort Arduini, G
collection CERN
description The Large Hadron Collider (LHC) is one of the largest scientific instruments ever built. Since opening up a new energy frontier for exploration in 2010, it has gathered a global user community working in fundamental particle physics and the physics of hadronic matter at extreme temperature and density. To sustain and extend its discovery potential, the LHC will undergo a major upgrade in the 2020s. This will increase its rate of collisions by a factor of five beyond the original design value and the integrated luminosity by a factor ten. The new configuration, known as High Luminosity LHC (HL-LHC), will rely on a number of key innovations that push accelerator technology beyond its present limits. Among these are cutting-edge 11–12 T superconducting magnets, including Nb(3)Sn-based magnets never used in accelerators before, compact superconducting cavities for longitudinal beam rotation, new technology and physical processes for beam collimation. The dynamics of the HL-LHC beams will be also particularly challenging and this aspect is the main focus of this paper.
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spelling oai-inspirehep.net-15075932022-08-10T12:42:49Z doi:10.1088/1748-0221/11/12/C12081 http://cds.cern.ch/record/2255815 eng Arduini, G Barranco, J Bertarelli, A Biancacci, N Bruce, R Brüning, O Buffat, X Cai, Y Carver, L R Fartoukh, S Giovannozzi, M Iadarola, G Li, K Lechner, A Medrano, L Medina Métral, E Nosochkov, Y Papaphilippou, Y Pellegrini, D Pieloni, T Qiang, J Redaelli, S Romano, A Rossi, L Rumolo, G Salvant, B Schenk, M Tambasco, C Tomás, R Valishev, S Veken, F F Van der High Luminosity LHC: challenges and plans Accelerators and Storage Rings 6: Low Emittance Rings (LOW-e-RING) 6.1: Coordination and Communication The Large Hadron Collider (LHC) is one of the largest scientific instruments ever built. Since opening up a new energy frontier for exploration in 2010, it has gathered a global user community working in fundamental particle physics and the physics of hadronic matter at extreme temperature and density. To sustain and extend its discovery potential, the LHC will undergo a major upgrade in the 2020s. This will increase its rate of collisions by a factor of five beyond the original design value and the integrated luminosity by a factor ten. The new configuration, known as High Luminosity LHC (HL-LHC), will rely on a number of key innovations that push accelerator technology beyond its present limits. Among these are cutting-edge 11–12 T superconducting magnets, including Nb(3)Sn-based magnets never used in accelerators before, compact superconducting cavities for longitudinal beam rotation, new technology and physical processes for beam collimation. The dynamics of the HL-LHC beams will be also particularly challenging and this aspect is the main focus of this paper. info:eu-repo/grantAgreement/EC/FP7/312453 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/2255815 JINST JINST, 12 (2016) pp. C12081 2016
spellingShingle Accelerators and Storage Rings
6: Low Emittance Rings (LOW-e-RING)
6.1: Coordination and Communication
Arduini, G
Barranco, J
Bertarelli, A
Biancacci, N
Bruce, R
Brüning, O
Buffat, X
Cai, Y
Carver, L R
Fartoukh, S
Giovannozzi, M
Iadarola, G
Li, K
Lechner, A
Medrano, L Medina
Métral, E
Nosochkov, Y
Papaphilippou, Y
Pellegrini, D
Pieloni, T
Qiang, J
Redaelli, S
Romano, A
Rossi, L
Rumolo, G
Salvant, B
Schenk, M
Tambasco, C
Tomás, R
Valishev, S
Veken, F F Van der
High Luminosity LHC: challenges and plans
title High Luminosity LHC: challenges and plans
title_full High Luminosity LHC: challenges and plans
title_fullStr High Luminosity LHC: challenges and plans
title_full_unstemmed High Luminosity LHC: challenges and plans
title_short High Luminosity LHC: challenges and plans
title_sort high luminosity lhc: challenges and plans
topic Accelerators and Storage Rings
6: Low Emittance Rings (LOW-e-RING)
6.1: Coordination and Communication
url https://dx.doi.org/10.1088/1748-0221/11/12/C12081
http://cds.cern.ch/record/2255815
http://cds.cern.ch/record/2255815
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