The magnet of the scattering and neutrino detector for the SHiP experiment at CERN

C. Ahdida; R. Albanese; A. Alexandrov; A. Anokhina; S. Aoki; G. Arduini; E. Atkin; N. Azorskiy; J.J. Back; A. Bagulya; F. Baaltasar Dos Santos; A. Baranov; F. Bardou; G.J. Barker; M. Battistin; J. Bauche; A. Bay; V. Bayliss; G. Bencivenni; A.Y. Berdnikov; Y.A. Berdnikov; I. Berezkina; M. Bertani; C. Betancourt; I. Bezshyiko; O. Bezshyyko; D. Bick; S. Bieschke; A. Blanco; J. Boehm; M. Bogomilov; K. Bondarenko; W.M. Bonivento; J. Borburgh; A. Boyarsky; R. Brenner; D. Breton; R. Brundler; M. Bruschi; V. Büscher; A. Buonaura; S. Buontempo; S. Cadeddu; A. Calcaterra; M. Calviani; M. Campanelli; M. Casolino; N. Charitonidis; P. Chau; J. Chauveau; A. Chepurnov; M. Chernyavskiy; K.-Y. Choi; A. Chumakov; P. Ciambrone; L. Congedo; K. Cornelis; M. Cristinziani; A. Crupano; G.M. Dallavalle; A. Datwyler; N. D'Ambrosio; G. D'Appollonio; J. De Carvalho Saraiva; G. De Lellis; M. de Magistris; A. De Roeck; M. De Serio; D. De Simone; L. Dedenko; P. Dergachev; A. Di Crescenzo; C. Dib; H. Dijkstra; P. Dipinto; V. Dmitrenko; S. Dmitrievskiy; L.A. Dougherty; A. Dolmatov; D. Domenici; S. Donskov; V. Drohan; A. Dubreuil; M. Ehlert; T. Enik; A. Etenko; F. Fabbri; L. Fabbri; A. Fabich; O. Fedin; F. Fedotovs; G. Felici; M. Ferro-Luzzi; K. Filippov; R.A. Fini; P. Fonte; C. Franco; M. Fraser; R. Fresa; R. Froeschl; T. Fukuda; G. Galati; J. Gall; L. Gatignon; G. Gavrilov; V. Gentile; S. Gerlach; B. Goddard; L. Golinka-Bezshyyko; A. Golovatiuk; D. Golubkov; A. Golutvin; P. Gorbounov; D. Gorbunov; S. Gorbunov; V. Gorkavenko; Y. Gornushkin; M. Gorshenkov; V. Grachev; A.L. Grandchamp; G. Granich; E. Graverini; J.-L. Grenard; D. Grenier; V. Grichine; N. Gruzinskii; A. M. Guler; Yu. Guz; G.J. Haefeli; C. Hagner; H. Hakobyan; I.W. Harris; E. van Herwijnen; C. Hessler; A. Hollnagel; B. Hosseini; M. Hushchyn; G. Iaselli; A. Iuliano; V. Ivantchenko; R. Jacobsson; D. Joković; M. Jonker; I. Kadenko; V. Kain; B. Kaiser; C. Kamiscioglu; K. Kershaw; M. Khabibullin; E. Khalikov; G. Khaustov; G. Khoriauli; A. Khotyantsev; S.H. Kim; Y.G. Kim; V. Kim; N. Kitagawa; J.-W. Ko; K. Kodama; A. Kolesnikov; D.I. Kolev; V. Kolosov; M. Komatsu; N. Kondrateva; A. Kono; N. Konovalova; S. Kormannshaus; I. Korol; I. Korol'ko; A. Korzenev; V. Kostyukhin; E. Koukovini Platia; S. Kovalenko; I. Krasilnikova; Y. Kudenko; E. Kurbatov; P. Kurbatov; V. Kurochka; E. Kuznetsova; H.M. Lacker; M. Lamont; G. Lanfranchi; O. Lantwin; A. Lauria; K.S. Lee; K.Y. Lee; J.-M. Lévy; V.P. Loschiavo; L. Lopes; E. Lopez Sola; V. Lyubovitskij; J. Maalmi; A. Magnan; V. Maleev; A. Malinin; Y. Manabe; A.K. Managadze; M. Manfredi; S. Marsh; A.M. Marshall; A. Mefodev; P. Mermod; A. Miano; S. Mikado; Yu. Mikhaylov; D.A. Milstead; O. Mineev; V. Minutolo; A. Montanari; M.C. Montesi; K. Morishima; S. Movchan; Y. Muttoni; N. Naganawa; M. Nakamura; T. Nakano; S. Nasybulin; P. Ninin; A. Nishio; A. Novikov; B. Obinyakov; S. Ogawa; N. Okateva; B. Opitz; J. Osborne; M. Ovchynnikov; N. Owtscharenko; P.H. Owen; P. Pacholek; A. Paoloni; B.D. Park; S.K. Park; G. Passeggio; A. Pastore; M. Patel; D. Pereyma; A. Perillo-Marcone; G.L. Petkov; K. Petridis; A. Petrov; D. Podgrudkov; V. Poliakov; N. Polukhina; J. Prieto Prieto; M. Prokudin; A. Prota; A. Quercia; A. Rademakers; A. Rakai; F. Ratnikov; T. Rawlings; F. Redi; S. Ricciardi; M. Rinaldesi; Volodymyr Rodin; Viktor Rodin; P. Robbe; A.B. Rodrigues Cavalcante; T. Roganova; H. Rokujo; G. Rosa; T. Rovelli; O. Ruchayskiy; T. Ruf; V. Samoylenko; V. Samsonov; F. Sanchez Galan; P. Santos Diaz; A. Sanz Ull; A. Saputi; O. Sato; E.S. Savchenko; J.S. Schliwinski; W. Schmidt-Parzefall; N. Serra; S. Sgobba; O. Shadura; A. Shakin; M. Shaposhnikov; P. Shatalov; T. Shchedrina; L. Shchutska; V. Shevchenko; H. Shibuya; L. Shihora; S. Shirobokov; A. Shustov; S.B. Silverstein; S. Simone; R. Simoniello; M. Skorokhvatov; S. Smirnov; J.Y. Sohn; A. Sokolenko; E. Solodko; N. Starkov; L. Stoel; B. Storaci; M.E. Stramaglia; D. Sukhonos; Y. Suzuki; S. Takahashi; J.L. Tastet; P. Teterin; S. Than Naing; I. Timiryasov; V. Tioukov; D. Tommasini; M. Torii; N. Tosi; D. Treille; R. Tsenov; S. Ulin; A. Ustyuzhanin; Z. Uteshev; G. Vankova-Kirilova; F. Vannucci; P. Venkova; V. Venturi; S. Vilchinski; M. Villa; Heinz Vincke; Helmut Vincke; C. Visone; K. Vlasik; A. Volkov; R. Voronkov; S. van Waasen; R. Wanke; P. Wertelaers; J.-K. Woo; M. Wurm; S. Xella; D. Yilmaz; A.U. Yilmazer; C.S. Yoon; P. Zarubin; I. Zarubina; Yu. Zaytsev

doi:10.1088/1748-0221/15/01/P01027

Journal of Instrumentation

The following article is Open access

The magnet of the scattering and neutrino detector for the SHiP experiment at CERN

C. Ahdida⁴⁴, R. Albanese^14,59,63, A. Alexandrov¹⁴, A. Anokhina³⁹, S. Aoki¹⁸, G. Arduini⁴⁴, E. Atkin³⁸, N. Azorskiy²⁹, J.J. Back⁵⁴, A. Bagulya³², F. Baaltasar Dos Santos⁴⁴, A. Baranov⁴⁰, F. Bardou⁴⁴, G.J. Barker⁵⁴, M. Battistin⁴⁴, J. Bauche⁴⁴, A. Bay⁴⁶, V. Bayliss⁵¹, G. Bencivenni¹⁵, A.Y. Berdnikov³⁷, Y.A. Berdnikov³⁷, I. Berezkina³², M. Bertani¹⁵, C. Betancourt⁴⁷, I. Bezshyiko⁴⁷, O. Bezshyyko⁵⁵, D. Bick⁸, S. Bieschke⁸, A. Blanco²⁸, J. Boehm⁵¹, M. Bogomilov¹, K. Bondarenko²⁷, W.M. Bonivento¹³, J. Borburgh⁴⁴, A. Boyarsky^27,55, R. Brenner⁴³, D. Breton⁴, R. Brundler⁴⁷, M. Bruschi¹², V. Büscher¹⁰, A. Buonaura⁴⁷, S. Buontempo¹⁴, S. Cadeddu¹³, A. Calcaterra¹⁵, M. Calviani⁴⁴, M. Campanelli⁵³, M. Casolino⁴⁴, N. Charitonidis⁴⁴, P. Chau¹⁰, J. Chauveau⁵, A. Chepurnov³⁹, M. Chernyavskiy³², K.-Y. Choi²⁶, A. Chumakov², P. Ciambrone¹⁵, L. Congedo^11,56, K. Cornelis⁴⁴, M. Cristinziani⁷, A. Crupano^14,59, G.M. Dallavalle¹², A. Datwyler⁴⁷, N. D'Ambrosio¹⁶, G. D'Appollonio^13,58, J. De Carvalho Saraiva²⁸, G. De Lellis^14,34,44,59, M. de Magistris^14,67, A. De Roeck⁴⁴, M. De Serio^11,56, D. De Simone^14,59, L. Dedenko³⁹, P. Dergachev³⁴, A. Di Crescenzo^14,59, C. Dib², H. Dijkstra⁴⁴, P. Dipinto^11,56, V. Dmitrenko³⁸, S. Dmitrievskiy²⁹, L.A. Dougherty⁴⁴, A. Dolmatov³⁰, D. Domenici¹⁵, S. Donskov³⁵, V. Drohan⁵⁵, A. Dubreuil⁴⁵, M. Ehlert⁶, T. Enik²⁹, A. Etenko^33,38, F. Fabbri¹², L. Fabbri^12,57, A. Fabich⁴⁴, O. Fedin³⁶, F. Fedotovs⁵², G. Felici¹⁵, M. Ferro-Luzzi⁴⁴, K. Filippov³⁸, R.A. Fini¹¹, P. Fonte²⁸, C. Franco²⁸, M. Fraser⁴⁴, R. Fresa^14,63,64, R. Froeschl⁴⁴, T. Fukuda¹⁹, G. Galati^14,59, J. Gall⁴⁴, L. Gatignon⁴⁴, G. Gavrilov³⁸, V. Gentile^14,59, S. Gerlach⁶, B. Goddard⁴⁴, L. Golinka-Bezshyyko⁵⁵, A. Golovatiuk^14,59, D. Golubkov³⁰, A. Golutvin⁵², P. Gorbounov⁴⁴, D. Gorbunov³¹, S. Gorbunov³², V. Gorkavenko⁵⁵, Y. Gornushkin²⁹, M. Gorshenkov³⁴, V. Grachev³⁸, A.L. Grandchamp⁴⁶, G. Granich³², E. Graverini⁴⁶, J.-L. Grenard⁴⁴, D. Grenier⁴⁴, V. Grichine³², N. Gruzinskii³⁶, A. M. Guler⁴⁸, Yu. Guz³⁵, G.J. Haefeli⁴⁶, C. Hagner⁸, H. Hakobyan², I.W. Harris⁴⁶, E. van Herwijnen⁴⁴, C. Hessler⁴⁴, A. Hollnagel¹⁰, B. Hosseini⁵², M. Hushchyn⁴⁰, G. Iaselli^11,56, A. Iuliano^14,59, V. Ivantchenko³², R. Jacobsson⁴⁴, D. Joković⁴¹, M. Jonker⁴⁴, I. Kadenko⁵⁵, V. Kain⁴⁴, B. Kaiser⁸, C. Kamiscioglu⁴⁹, K. Kershaw⁴⁴, M. Khabibullin³¹, E. Khalikov³⁹, G. Khaustov³⁵, G. Khoriauli¹⁰, A. Khotyantsev³¹, S.H. Kim²², Y.G. Kim²³, V. Kim^36,37, N. Kitagawa¹⁹, J.-W. Ko²², K. Kodama¹⁷, A. Kolesnikov²⁹, D.I. Kolev¹, V. Kolosov³⁵, M. Komatsu¹⁹, N. Kondrateva³², A. Kono²¹, N. Konovalova^32,34, S. Kormannshaus¹⁰, I. Korol⁶, I. Korol'ko³⁰, A. Korzenev⁴⁵, V. Kostyukhin⁷, E. Koukovini Platia⁴⁴, S. Kovalenko², I. Krasilnikova³⁴, Y. Kudenko^31,38,62, E. Kurbatov⁴⁰, P. Kurbatov³⁴, V. Kurochka³¹, E. Kuznetsova³⁶, H.M. Lacker⁶, M. Lamont⁴⁴, G. Lanfranchi¹⁵, O. Lantwin⁴⁷, A. Lauria^14,59, K.S. Lee²⁵, K.Y. Lee²², J.-M. Lévy⁵, V.P. Loschiavo^14,66, L. Lopes²⁸, E. Lopez Sola⁴⁴, V. Lyubovitskij², J. Maalmi⁴, A. Magnan⁵², V. Maleev³⁶, A. Malinin³³, Y. Manabe¹⁹, A.K. Managadze³⁹, M. Manfredi⁴⁴, S. Marsh⁴⁴, A.M. Marshall⁵⁰, A. Mefodev³¹, P. Mermod⁴⁵, A. Miano^14,59, S. Mikado²⁰, Yu. Mikhaylov³⁵, D.A. Milstead⁴², O. Mineev³¹, V. Minutolo⁶⁵, A. Montanari¹², M.C. Montesi^14,59, K. Morishima¹⁹, S. Movchan²⁹, Y. Muttoni⁴⁴, N. Naganawa¹⁹, M. Nakamura¹⁹, T. Nakano¹⁹, S. Nasybulin³⁶, P. Ninin⁴⁴, A. Nishio¹⁹, A. Novikov³⁸, B. Obinyakov³³, S. Ogawa²¹, N. Okateva^32,34, B. Opitz⁸, J. Osborne⁴⁴, M. Ovchynnikov^27,55, N. Owtscharenko⁷, P.H. Owen⁴⁷, P. Pacholek⁴⁴, A. Paoloni¹⁵, B.D. Park²², S.K. Park²⁵, G. Passeggio¹⁴, A. Pastore¹¹, M. Patel⁵², D. Pereyma³⁰, A. Perillo-Marcone⁴⁴, G.L. Petkov¹, K. Petridis⁵⁰, A. Petrov³³, D. Podgrudkov³⁹, V. Poliakov³⁵, N. Polukhina^32,34,38, J. Prieto Prieto⁴⁴, M. Prokudin³⁰, A. Prota^14,59, A. Quercia^14,59, A. Rademakers⁴⁴, A. Rakai⁴⁴, F. Ratnikov⁴⁰, T. Rawlings⁵¹, F. Redi⁴⁶, S. Ricciardi⁵¹, M. Rinaldesi⁴⁴, Volodymyr Rodin⁵⁵, Viktor Rodin⁵⁵, P. Robbe⁴, A.B. Rodrigues Cavalcante⁴⁶, T. Roganova³⁹, H. Rokujo¹⁹, G. Rosa^14,59, T. Rovelli^12,57, O. Ruchayskiy³, T. Ruf⁴⁴, V. Samoylenko³⁵, V. Samsonov³⁸, F. Sanchez Galan⁴⁴, P. Santos Diaz⁴⁴, A. Sanz Ull⁴⁴, A. Saputi¹⁵, O. Sato¹⁹, E.S. Savchenko³⁴, J.S. Schliwinski⁶, W. Schmidt-Parzefall⁸, N. Serra⁴⁷, S. Sgobba⁴⁴, O. Shadura⁵⁵, A. Shakin³⁴, M. Shaposhnikov⁴⁶, P. Shatalov³⁰, T. Shchedrina^32,34, L. Shchutska⁵⁵, V. Shevchenko³³, H. Shibuya²¹, L. Shihora⁶, S. Shirobokov⁵², A. Shustov³⁸, S.B. Silverstein⁴², S. Simone^11,56, R. Simoniello¹⁰, M. Skorokhvatov^33,38, S. Smirnov³⁸, J.Y. Sohn²², A. Sokolenko⁵⁵, E. Solodko⁴⁴, N. Starkov^32,34, L. Stoel⁴⁴, B. Storaci⁴⁷, M.E. Stramaglia⁴⁶, D. Sukhonos⁴⁴, Y. Suzuki¹⁹, S. Takahashi¹⁸, J.L. Tastet³, P. Teterin³⁸, S. Than Naing³², I. Timiryasov⁴⁶, V. Tioukov¹⁴, D. Tommasini⁴⁴, M. Torii¹⁹, N. Tosi¹², D. Treille⁴⁴, R. Tsenov^1,29, S. Ulin³⁸, A. Ustyuzhanin⁴⁰, Z. Uteshev³⁸, G. Vankova-Kirilova¹, F. Vannucci⁵, P. Venkova⁶, V. Venturi⁴⁴, S. Vilchinski⁵⁵, M. Villa^12,57, Heinz Vincke⁴⁴, Helmut Vincke⁴⁴, C. Visone^14,59, K. Vlasik³⁸, A. Volkov^32,33, R. Voronkov³², S. van Waasen⁹, R. Wanke¹⁰, P. Wertelaers⁴⁴, J.-K. Woo²⁴, M. Wurm¹⁰, S. Xella³, D. Yilmaz⁴⁹, A.U. Yilmazer⁴⁹, C.S. Yoon²², P. Zarubin²⁹, I. Zarubina²⁹ and Yu. Zaytsev³⁰

Published 23 January 2020 • © 2020 CERN
Journal of Instrumentation, Volume 15, January 2020 Citation C. Ahdida et al 2020 JINST 15 P01027 DOI 10.1088/1748-0221/15/01/P01027

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¹ Faculty of Physics, Sofia University, Sofia, Bulgaria

² Universidad Técnica Federico Santa María and Centro Científico Tecnológico de Valparaíso, Valparaíso, Chile

³ Niels Bohr Institute, University of Copenhagen, Copenhagen, Denmark

⁴ LAL, Univ. Paris-Sud, CNRS/IN2P3, Université Paris-Saclay, Orsay, France

⁵ LPNHE, IN2P3/CNRS, Sorbonne Université, Université Paris Diderot,F-75252 Paris, France

⁶ Humboldt-Universität zu Berlin, Berlin, Germany

⁷ Physikalisches Institut, Universität Bonn, Bonn, Germany

⁸ Universität Hamburg, Hamburg, Germany

⁹ Forschungszentrum Jülich GmbH (KFA), Jülich, Germany

¹⁰ Institut für Physik and PRISMA Cluster of Excellence, Johannes Gutenberg Universität Mainz, Mainz, Germany

¹¹ Sezione INFN di Bari, Bari, Italy

¹² Sezione INFN di Bologna, Bologna, Italy

¹³ Sezione INFN di Cagliari, Cagliari, Italy

¹⁴ Sezione INFN di Napoli, Napoli, Italy

¹⁵ Laboratori Nazionali dell'INFN di Frascati, Frascati, Italy

¹⁶ Laboratori Nazionali dell'INFN di Gran Sasso, L'Aquila, Italy

¹⁷ Aichi University of Education, Kariya, Japan

¹⁸ Kobe University, Kobe, Japan

¹⁹ Nagoya University, Nagoya, Japan

²⁰ College of Industrial Technology, Nihon University, Narashino, Japan

²¹ Toho University, Funabashi, Chiba, Japan

²² Physics Education Department & RINS, Gyeongsang National University, Jinju, Korea

²³ Gwangju National University of Education,(e) Gwangju, Korea

²⁴ Jeju National University,(e) Jeju, Korea

²⁵ Korea University, Seoul, Korea

²⁶ Sungkyunkwan University,(e) Suwon-si, Gyeong Gi-do, Korea

²⁷ University of Leiden, Leiden, The Netherlands

²⁸ LIP, Laboratory of Instrumentation and Experimental Particle Physics, Portugal

²⁹ Joint Institute for Nuclear Research (JINR), Dubna, Russia

³⁰ Institute of Theoretical and Experimental Physics (ITEP) NRC `Kurchatov Institute', Moscow, Russia

³¹ Institute for Nuclear Research of the Russian Academy of Sciences (INR RAS), Moscow, Russia

³² P.N. Lebedev Physical Institute (LPI), Moscow, Russia

³³ National Research Centre `Kurchatov Institute', Moscow, Russia

³⁴ National University of Science and Technology "MISiS", Moscow, Russia

³⁵ Institute for High Energy Physics (IHEP) NRC `Kurchatov Institute', Protvino, Russia

³⁶ Petersburg Nuclear Physics Institute (PNPI) NRC `Kurchatov Institute', Gatchina, Russia

³⁷ St. Petersburg Polytechnic University (SPbPU),(f) St. Petersburg, Russia

³⁸ National Research Nuclear University (MEPhI), Moscow, Russia

³⁹ Skobeltsyn Institute of Nuclear Physics of Moscow State University (SINP MSU), Moscow, Russia

⁴⁰ Yandex School of Data Analysis, Moscow, Russia

⁴¹ Institute of Physics, University of Belgrade, Serbia

⁴² Stockholm University, Stockholm, Sweden

⁴³ Uppsala University, Uppsala, Sweden

⁴⁴ European Organization for Nuclear Research (CERN), Geneva, Switzerland

⁴⁵ University of Geneva, Geneva, Switzerland

⁴⁶ École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland

⁴⁷ Physik-Institut, Universität Zürich, Zürich, Switzerland

⁴⁸ Middle East Technical University (METU), Ankara, Turkey

⁴⁹ Ankara University, Ankara, Turkey

⁵⁰ H.H. Wills Physics Laboratory, University of Bristol, Bristol, United Kingdom

⁵¹ STFC Rutherford Appleton Laboratory, Didcot, United Kingdom

⁵² Imperial College London, London, United Kingdom

⁵³ University College London, London, United Kingdom

⁵⁴ University of Warwick, Warwick, United Kingdom

⁵⁵ Taras Shevchenko National University of Kyiv, Kyiv, Ukraine

⁵⁶ Università di Bari, Bari, Italy

⁵⁷ Università di Bologna, Bologna, Italy

⁵⁸ Università di Cagliari, Cagliari, Italy

⁵⁹ Università di Napoli "Federico II", Napoli, Italy

⁶⁰ Associated to Gyeongsang National University, Jinju, Korea

⁶¹ Associated to Petersburg Nuclear Physics Institute (PNPI), Gatchina, Russia

⁶² Also at Moscow Institute of Physics and Technology (MIPT), Moscow Region, Russia

⁶³ Consorzio CREATE, Napoli, Italy

⁶⁴ Università della Basilicata, Potenza, Italy

⁶⁵ Università della Campania "Luigi Vanvitelli", Caserta, Italy

⁶⁶ Università del Sannio, Benevento, Italy

⁶⁷ Università di Napoli Parthenope, Napoli, Italy

Dates

Received 9 October 2019
Accepted 30 December 2019
Published 23 January 2020

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Abstract

The Search for Hidden Particles (SHiP) experiment proposal at CERN demands a dedicated dipole magnet for its scattering and neutrino detector. This requires a very large volume to be uniformly magnetized at B>1.2 T, with constraints regarding the inner instrumented volume as well as the external region, where no massive structures are allowed and only an extremely low stray field is admitted. In this paper we report the main technical challenges and the relevant design options providing a comprehensive design for the magnet of the SHiP Scattering and Neutrino Detector.

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The magnet of the scattering and neutrino detector for the SHiP experiment at CERN

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