The Falcon Dipole (Future Accelerator post-LHC Cos-theta Optimized Nb3Sn Dipole) is a single aperture Nb3Sn cos-theta dipole short model in the framework of the Future Circular Collider (FCC) project. The Italian Institute of Nuclear Physics (INFN), in collaboration with CERN, is in charge of designing and constructing the magnet, which is a crucial step towards the construction of High Field Nb3Sn magnets suitable for a post LHC collider. This paper recalls the electromagnetic design, the field quality and performances of the Falcon Dipole. The coil ends design has been implemented in a 3D FEM to study the peak field distribution on the magnet and influence on field quality. A special focus is given to the 2Danalysis to study the effect of superconductor magnetization on field quality from the injection to the final energy and then to investigate the effectiveness of compensation methods.
Study of Superconducting Magnetization Effects and 3D Electromagnetic Analysis of the Nb Short Model for FCC / Valente, R. U.; Bellomo, G.; Burioli, S.; De Matteis, E.; Fabbricatore, P.; Farinon, S.; Lackner, F.; Levi, F.; Mariotto, S.; Musenich, R.; Pampaloni, A.; Prioli, M.; Sorbi, M.; Statera, M.; Tommasini, D.. - In: IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. - ISSN 1051-8223. - 31:5(2021). [10.1109/TASC.2021.3059981]
Study of Superconducting Magnetization Effects and 3D Electromagnetic Analysis of the Nb Short Model for FCC
Valente R. U.;Levi F.;
2021
Abstract
The Falcon Dipole (Future Accelerator post-LHC Cos-theta Optimized Nb3Sn Dipole) is a single aperture Nb3Sn cos-theta dipole short model in the framework of the Future Circular Collider (FCC) project. The Italian Institute of Nuclear Physics (INFN), in collaboration with CERN, is in charge of designing and constructing the magnet, which is a crucial step towards the construction of High Field Nb3Sn magnets suitable for a post LHC collider. This paper recalls the electromagnetic design, the field quality and performances of the Falcon Dipole. The coil ends design has been implemented in a 3D FEM to study the peak field distribution on the magnet and influence on field quality. A special focus is given to the 2Danalysis to study the effect of superconductor magnetization on field quality from the injection to the final energy and then to investigate the effectiveness of compensation methods.| File | Dimensione | Formato | |
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