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A Strategic Approach to Advance Magnet Technology for Next Generation Colliders
Colliders are built on a foundation of superconducting magnet technology that provides strong dipole magnets to maintain the beam orbit and strong focusing magnets to enable the extraordinary luminosity required to probe physics at the energy frontier. The dipole magnet strength plays a critical rol...
Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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Lenguaje: | eng |
Publicado: |
2022
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Materias: | |
Acceso en línea: | http://cds.cern.ch/record/2806385 |
_version_ | 1780972992325484544 |
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author | Ambrosio, G. Amm, K. Anerella, M. Apollinari, G. Arbelaez, D. Auchmann, B. Balachandran, S. Baldini, M. Ballarino, A. Barua, S. Barzi, E. Baskys, A. Bird, C. Boerme, J. Bosque, E. Brouwer, L. Caspi, S. Cheggour, N. Chlachidze, G. Cooley, L. Davis, D. Dietderich, D. DiMarco, J. English, L. Fajardo, L. Garcia Fernandez, J.L. Rudeiros Ferracin, P. Gourlay, S. Gupta, R. Hafalia, A. Hellstrom, E. Higley, H. Hossain, I. Jewell, M. Jiang, J. Juchno, Gm. Kametani, F. Kashikhin, V. Krave, S. Kumar, M. Kurian, F. Lankford, A. Larbalestier, D. Lee, P. Lee, G.S. Lombardo, V. Marchevsky, M. Marinozzi, V. Messe, C. Minervini, J. Myers, C. Naus, M. Novitski, I. Ogitsu, T. Palmer, M. Pong, I. Prestemon, S. Runyan, C. Sabbi, G.L. Shen, T. Stoynev, S. Strauss, T. Tarantini, C. Teyber, R. Trociewitz, U. Turqueti, M. Turenne, M. Turrioni, D. Vallone, G. Velev, G. Viarengo, S. Wang, L. Wang, X. Xu, X. Yamamoto, A. Yin, S. Zlobin, A. |
author_facet | Ambrosio, G. Amm, K. Anerella, M. Apollinari, G. Arbelaez, D. Auchmann, B. Balachandran, S. Baldini, M. Ballarino, A. Barua, S. Barzi, E. Baskys, A. Bird, C. Boerme, J. Bosque, E. Brouwer, L. Caspi, S. Cheggour, N. Chlachidze, G. Cooley, L. Davis, D. Dietderich, D. DiMarco, J. English, L. Fajardo, L. Garcia Fernandez, J.L. Rudeiros Ferracin, P. Gourlay, S. Gupta, R. Hafalia, A. Hellstrom, E. Higley, H. Hossain, I. Jewell, M. Jiang, J. Juchno, Gm. Kametani, F. Kashikhin, V. Krave, S. Kumar, M. Kurian, F. Lankford, A. Larbalestier, D. Lee, P. Lee, G.S. Lombardo, V. Marchevsky, M. Marinozzi, V. Messe, C. Minervini, J. Myers, C. Naus, M. Novitski, I. Ogitsu, T. Palmer, M. Pong, I. Prestemon, S. Runyan, C. Sabbi, G.L. Shen, T. Stoynev, S. Strauss, T. Tarantini, C. Teyber, R. Trociewitz, U. Turqueti, M. Turenne, M. Turrioni, D. Vallone, G. Velev, G. Viarengo, S. Wang, L. Wang, X. Xu, X. Yamamoto, A. Yin, S. Zlobin, A. |
author_sort | Ambrosio, G. |
collection | CERN |
description | Colliders are built on a foundation of superconducting magnet technology that provides strong dipole magnets to maintain the beam orbit and strong focusing magnets to enable the extraordinary luminosity required to probe physics at the energy frontier. The dipole magnet strength plays a critical role in dictating the energy reach of a collider, and the superconducting magnets are arguably the dominant cost driver for future collider facilities. As the community considers opportunities to explore new energy frontiers, the importance of advanced magnet technology - both in terms of magnet performance and in the magnet technology's potential for cost reduction - is evident, as the technology status is essential for informed decisions on targets for physics reach and facility feasibility. |
id | cern-2806385 |
institution | Organización Europea para la Investigación Nuclear |
language | eng |
publishDate | 2022 |
record_format | invenio |
spelling | cern-28063852023-09-29T02:57:20Zhttp://cds.cern.ch/record/2806385engAmbrosio, G.Amm, K.Anerella, M.Apollinari, G.Arbelaez, D.Auchmann, B.Balachandran, S.Baldini, M.Ballarino, A.Barua, S.Barzi, E.Baskys, A.Bird, C.Boerme, J.Bosque, E.Brouwer, L.Caspi, S.Cheggour, N.Chlachidze, G.Cooley, L.Davis, D.Dietderich, D.DiMarco, J.English, L.Fajardo, L. GarciaFernandez, J.L. RudeirosFerracin, P.Gourlay, S.Gupta, R.Hafalia, A.Hellstrom, E.Higley, H.Hossain, I.Jewell, M.Jiang, J.Juchno, Gm.Kametani, F.Kashikhin, V.Krave, S.Kumar, M.Kurian, F.Lankford, A.Larbalestier, D.Lee, P.Lee, G.S.Lombardo, V.Marchevsky, M.Marinozzi, V.Messe, C.Minervini, J.Myers, C.Naus, M.Novitski, I.Ogitsu, T.Palmer, M.Pong, I.Prestemon, S.Runyan, C.Sabbi, G.L.Shen, T.Stoynev, S.Strauss, T.Tarantini, C.Teyber, R.Trociewitz, U.Turqueti, M.Turenne, M.Turrioni, D.Vallone, G.Velev, G.Viarengo, S.Wang, L.Wang, X.Xu, X.Yamamoto, A.Yin, S.Zlobin, A.A Strategic Approach to Advance Magnet Technology for Next Generation Collidersphysics.acc-phAccelerators and Storage RingsColliders are built on a foundation of superconducting magnet technology that provides strong dipole magnets to maintain the beam orbit and strong focusing magnets to enable the extraordinary luminosity required to probe physics at the energy frontier. The dipole magnet strength plays a critical role in dictating the energy reach of a collider, and the superconducting magnets are arguably the dominant cost driver for future collider facilities. As the community considers opportunities to explore new energy frontiers, the importance of advanced magnet technology - both in terms of magnet performance and in the magnet technology's potential for cost reduction - is evident, as the technology status is essential for informed decisions on targets for physics reach and facility feasibility.arXiv:2203.13985FERMILAB-CONF-22-283-TDoai:cds.cern.ch:28063852022-03-26 |
spellingShingle | physics.acc-ph Accelerators and Storage Rings Ambrosio, G. Amm, K. Anerella, M. Apollinari, G. Arbelaez, D. Auchmann, B. Balachandran, S. Baldini, M. Ballarino, A. Barua, S. Barzi, E. Baskys, A. Bird, C. Boerme, J. Bosque, E. Brouwer, L. Caspi, S. Cheggour, N. Chlachidze, G. Cooley, L. Davis, D. Dietderich, D. DiMarco, J. English, L. Fajardo, L. Garcia Fernandez, J.L. Rudeiros Ferracin, P. Gourlay, S. Gupta, R. Hafalia, A. Hellstrom, E. Higley, H. Hossain, I. Jewell, M. Jiang, J. Juchno, Gm. Kametani, F. Kashikhin, V. Krave, S. Kumar, M. Kurian, F. Lankford, A. Larbalestier, D. Lee, P. Lee, G.S. Lombardo, V. Marchevsky, M. Marinozzi, V. Messe, C. Minervini, J. Myers, C. Naus, M. Novitski, I. Ogitsu, T. Palmer, M. Pong, I. Prestemon, S. Runyan, C. Sabbi, G.L. Shen, T. Stoynev, S. Strauss, T. Tarantini, C. Teyber, R. Trociewitz, U. Turqueti, M. Turenne, M. Turrioni, D. Vallone, G. Velev, G. Viarengo, S. Wang, L. Wang, X. Xu, X. Yamamoto, A. Yin, S. Zlobin, A. A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title | A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title_full | A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title_fullStr | A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title_full_unstemmed | A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title_short | A Strategic Approach to Advance Magnet Technology for Next Generation Colliders |
title_sort | strategic approach to advance magnet technology for next generation colliders |
topic | physics.acc-ph Accelerators and Storage Rings |
url | http://cds.cern.ch/record/2806385 |
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strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT cooleyl strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT davisd strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT dietderichd strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT dimarcoj strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT englishl strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT fajardolgarcia strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT fernandezjlrudeiros strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT ferracinp strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT gourlays strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT guptar strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT hafaliaa strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT hellstrome strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT higleyh strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT hossaini strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT jewellm strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT jiangj strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT juchnogm strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT kametanif strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT kashikhinv strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT kraves strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT kumarm strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT kurianf strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT lankforda strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT larbalestierd strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT leep strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT leegs strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT lombardov strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT marchevskym strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT marinozziv strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT messec strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT minervinij strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT myersc strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT nausm strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT novitskii strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT ogitsut strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT palmerm strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT pongi strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT prestemons strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT runyanc strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT sabbigl strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT shent strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT stoynevs strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT strausst strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT tarantinic strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT teyberr strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT trociewitzu strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT turquetim strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT turennem strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT turrionid strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT valloneg strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT velevg strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT viarengos strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT wangl strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT wangx strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT xux strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT yamamotoa strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT yins strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders AT zlobina strategicapproachtoadvancemagnettechnologyfornextgenerationcolliders |