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Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider
The conceptual design study of a hadron Future Circular Collider (FCC-hh) with a center-of-mass energy of the order of 100 TeV in a new tunnel of 80-100 km circumference assumes the determination of the basic requirements for its detectors. A superconducting solenoid magnet of 12 m diameter inner bo...
| Autores principales: | , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2015
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/NSSMIC.2015.7581877 http://cds.cern.ch/record/2066922 |
| _version_ | 1780948707307421696 |
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| author | Klyukhin, V.I. Ball, A. Berriaud, C. Curé, B. Dudarev, A. Gaddi, A. Gerwig, H. Hervé, A. Mentink, M. Rolando, G. Pais Da Silva, H.F. Wagner, U. ten Kate, H. H. J. |
| author_facet | Klyukhin, V.I. Ball, A. Berriaud, C. Curé, B. Dudarev, A. Gaddi, A. Gerwig, H. Hervé, A. Mentink, M. Rolando, G. Pais Da Silva, H.F. Wagner, U. ten Kate, H. H. J. |
| author_sort | Klyukhin, V.I. |
| collection | CERN |
| description | The conceptual design study of a hadron Future Circular Collider (FCC-hh) with a center-of-mass energy of the order of 100 TeV in a new tunnel of 80-100 km circumference assumes the determination of the basic requirements for its detectors. A superconducting solenoid magnet of 12 m diameter inner bore with the central magnetic flux density of 6 T is proposed for a FCC-hh experimental setup. The coil of 24.518 m long has seven 3.5 m long modules included into one cryostat. The steel yoke with a mass of 21 kt consists of two barrel layers of 0.5 m radial thickness, and 0.7 m thick nose disk, four 0.6 m thick end-cap disks, and three 0.8 m thick muon toroid disks each side. The outer diameter of the yoke is 17.7 m; the length without the forward muon toroids is 33 m. The air gaps between the end-cap disks provide the installation of the muon chambers up to the pseudorapidity of \pm 3.5. The conventional forward muon spectrometer provides the measuring of the muon momenta in the pseudorapidity region from \pm 2.7 to \pm 4.6. The magnet modeled with Cobham's program TOSCA. The total Ampere-turns in the superconducting solenoid coil are 127.25 MA-turns. The stored energy is 43.3 GJ. The axial force onto each end-cap is 480 MN. The stray field at the radius of 50 m off the coil axis is 14.1 mT and 5.4 mT at the radius of 100 m. All other parameters presented and discussed. |
| id | cern-2066922 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-20669222023-05-06T02:40:28Zdoi:10.1109/NSSMIC.2015.7581877http://cds.cern.ch/record/2066922engKlyukhin, V.I.Ball, A.Berriaud, C.Curé, B.Dudarev, A.Gaddi, A.Gerwig, H.Hervé, A.Mentink, M.Rolando, G.Pais Da Silva, H.F.Wagner, U.ten Kate, H. H. J.Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular ColliderDetectors and Experimental TechniquesThe conceptual design study of a hadron Future Circular Collider (FCC-hh) with a center-of-mass energy of the order of 100 TeV in a new tunnel of 80-100 km circumference assumes the determination of the basic requirements for its detectors. A superconducting solenoid magnet of 12 m diameter inner bore with the central magnetic flux density of 6 T is proposed for a FCC-hh experimental setup. The coil of 24.518 m long has seven 3.5 m long modules included into one cryostat. The steel yoke with a mass of 21 kt consists of two barrel layers of 0.5 m radial thickness, and 0.7 m thick nose disk, four 0.6 m thick end-cap disks, and three 0.8 m thick muon toroid disks each side. The outer diameter of the yoke is 17.7 m; the length without the forward muon toroids is 33 m. The air gaps between the end-cap disks provide the installation of the muon chambers up to the pseudorapidity of \pm 3.5. The conventional forward muon spectrometer provides the measuring of the muon momenta in the pseudorapidity region from \pm 2.7 to \pm 4.6. The magnet modeled with Cobham's program TOSCA. The total Ampere-turns in the superconducting solenoid coil are 127.25 MA-turns. The stored energy is 43.3 GJ. The axial force onto each end-cap is 480 MN. The stray field at the radius of 50 m off the coil axis is 14.1 mT and 5.4 mT at the radius of 100 m. All other parameters presented and discussed.The conceptual design study of a hadron Future Circular Collider (FCC-hh) with a center-of-mass energy of the order of 100 TeV in a new tunnel of 80-100 km circumference assumes the determination of the basic requirements for its detectors. A superconducting solenoid magnet of 12 m diameter inner bore with the central magnetic flux density of 6 T is proposed for a FCC-hh experimental setup. The coil of 24.518 m long has seven 3.5 m long modules included into one cryostat. The steel yoke with a mass of 21 kt consists of two barrel layers of 0.5 m radial thickness, and 0.7 m thick nose disk, four 0.6 m thick end-cap disks, and three 0.8 m thick muon toroid disks each side. The outer diameter of the yoke is 17.7 m; the length without the forward muon toroids is 33 m. The air gaps between the end-cap disks provide the installation of the muon chambers up to the pseudorapidity of ±3.5. The conventional forward muon spectrometer provides the measuring of the muon momenta in the pseudorapidity region from ±2.7 to ±4.6. The magnet modeled with Cobham's program TOSCA. The total Ampere-turns in the superconducting solenoid coil are 127.25 MA-turns. The stored energy is 43.3 GJ. The axial force onto each end-cap is 480 MN. The stray field at the radius of 50 m off the coil axis is 14.1 mT and 5.4 mT at the radius of 100 m. All other parameters presented and discussed.The conceptual design study of a hadron Future Circular Collider (FCC-hh) with a center-of-mass energy of the order of 100 TeV in a new tunnel of 80-100 km circumference assumes the determination of the basic requirements for its detectors. A superconducting solenoid magnet of 12 m diameter inner bore with the central magnetic flux density of 6 T is proposed for a FCC-hh experimental setup. The coil of 24.518 m long has seven 3.5 m long modules included into one cryostat. The steel yoke with a mass of 21 kt consists of two barrel layers of 0.5 m radial thickness, and 0.7 m thick nose disk, four 0.6 m thick end-cap disks, and three 0.8 m thick muon toroid disks each side. The outer diameter of the yoke is 17.7 m; the length without the forward muon toroids is 33 m. The air gaps between the end-cap disks provide the installation of the muon chambers up to the pseudorapidity of \pm 3.5. The conventional forward muon spectrometer provides the measuring of the muon momenta in the pseudorapidity region from \pm 2.7 to \pm 4.6. The magnet modeled with Cobham's program TOSCA. The total Ampere-turns in the superconducting solenoid coil are 127.25 MA-turns. The stored energy is 43.3 GJ. The axial force onto each end-cap is 480 MN. The stray field at the radius of 50 m off the coil axis is 14.1 mT and 5.4 mT at the radius of 100 m. All other parameters presented and discussed.arXiv:1511.03143oai:cds.cern.ch:20669222015-11-06 |
| spellingShingle | Detectors and Experimental Techniques Klyukhin, V.I. Ball, A. Berriaud, C. Curé, B. Dudarev, A. Gaddi, A. Gerwig, H. Hervé, A. Mentink, M. Rolando, G. Pais Da Silva, H.F. Wagner, U. ten Kate, H. H. J. Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title | Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title_full | Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title_fullStr | Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title_full_unstemmed | Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title_short | Superconducting Magnet with the Reduced Barrel Yoke for the Hadron Future Circular Collider |
| title_sort | superconducting magnet with the reduced barrel yoke for the hadron future circular collider |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1109/NSSMIC.2015.7581877 http://cds.cern.ch/record/2066922 |
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