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1.
Modeling Results of the Quench Behavior of a Nb-Ti Canted-Cosine-Theta Corrector Magnet for LHC / Bagni, T (Uppsala U.) ; Ahl, A (Scanditronix Instrument, Uppsala) ; Almström, M (Linnaeus U.) ; Canale, M (CERN) ; Dugic, I (Linnaeus U.) ; Emilsson, F (AMACC, Uppsala) ; Gentini, L (CERN) ; Haralanova, V (Linnaeus U.) ; Johansson, M (Unlisted, SE) ; Karlsson, G (Linnaeus U.) et al.
A newly designed superconducting magnet of the Canted-Cosine-Theta (CCT) type was developed as a result of a collaboration between Swedish universities (Uppsala and Linneaus) and Swedish industries. This magnet was designed to function as a replacement of the present LHC orbit corrector magnets, which are approaching their end of life due to the radiation load. [...]
2024 - 5 p. - Published in : IEEE Trans. Appl. Supercond. 34 (2024) 4001105
2.
Design and Fabrication of a Canted-Cosine-Theta Double Aperture Orbit Corrector Dipole for the LHC / Pepitone, K (Uppsala U.) ; Kirby, G (CERN) ; Olvegård, M (Uppsala U.) ; Ahl, A (Scanditronix Instrument, Uppsala) ; Almström, M (Linnaeus U.) ; Dugic, I (Linnaeus U.) ; Emilsson, F (AMACC, Uppsala) ; Haralanova, V (Linnaeus U.) ; Johansson, M (Unlisted, SE) ; Karlsson, G (Linnaeus U.) et al.
A prototype CCT dipole magnet developed by a collaboration between Swedish universities, Swedish industry and CERN will be tested at Uppsala University. This 1 m long double-aperture magnet can provide a field strength of 3.3 T at 85 A in a 70 mm aperture with an integrated field of 2.8 Tm. [...]
2023 - 5 p. - Published in : IEEE Trans. Appl. Supercond. 33 (2023) 4000405
In : Applied Superconductivity Conference, Honolulu, Hawaii, United States, 23 - 28 Oct 2022
3.
Design of a Canted-cosine-theta orbit corrector for the High Luminosity LHC / Pepitone, K. (Uppsala U.) ; Kirby, G. (CERN) ; Ruber, R. (Uppsala U.) ; Ahl, A. (Scanditronix Instrument, Uppsala) ; Canale, M. (CERN) ; Dugic, I. (Linnaeus U.) ; Gentini, L. (CERN) ; Johansson, M. (Unlisted, SE) ; Karlsson, G. (Linnaeus U.) ; Kovacikova, J. (Linnaeus U.) et al.
The High Luminosity LHC requires dipole orbit correctors grouped in double aperture magnet assemblies. They provide a field of 3.1 T at 100 A in an aperture of 70 mm. [...]
arXiv:2202.10305.- 2022-09 - 4 p. - Published in : IEEE Trans. Appl. Supercond. 32 (2022) 4003104 Fulltext: PDF;
In : 27th International Conference on Magnet Technology (MT-27), Fukuoka, Japan, 15 - 19 Nov 2021, pp.4003104

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