Test Result of the Short Models MQXFS3 and MQXFS5 for the HL-LHC Upgrade

© 2002-2011 IEEE. In the framework of the High-Luminosity Large Hadron Collider, the installation of a new generation of quadrupole magnets is foreseen on each side of ATLAS and CMS experiments. The new magnets are based on Nb 3 Sn technology and shall be able to reach an ultimate current of 17.9 kA...

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Published in:IEEE transactions on applied superconductivity 2018-04, Vol.28 (3)
Main Authors: Bajas, Hugues, Ambrosio, Giorgio, Ballarino, A., Bajko, Marta, Bordini, B., Bourcey, N., Cheng, D. W., Cabon, M., Chiuchiolo, A., Chlachidze, G., Felice, H., Fiscarelli, L., Juchno, M., Izquierdo Bermudez, Susana, Guinchard, M., Kopal, J., Lackner, F., Marchevsky, M., Nobrega, F., Pan, H., Perez, J. C., Prin, H., Ravaioli, E., Rossi, L., Sabbi, G., Sequeira Tavares, S., Steckert, J., Stoynev, S., Todesco, Ezio, Vallone, G., Wanderer, P., Wang, X., Yu, M.
Format: Article
Language:English
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Summary:© 2002-2011 IEEE. In the framework of the High-Luminosity Large Hadron Collider, the installation of a new generation of quadrupole magnets is foreseen on each side of ATLAS and CMS experiments. The new magnets are based on Nb 3 Sn technology and shall be able to reach an ultimate current of 17.9 kA with a peak field of 12.3 T in the coil. In 2016 and 2017, the first two short models, called MQXFS3 and MQXFS5, have been tested at 4.2 and 1.9 K in the two new test benches at the European Organization for Nuclear Research. This paper presents the result of the quench performance of the two models; the first magnet reached nominal but failed to reach ultimate, showing detraining in one coil. MQXFS5 reached ultimate performance without any detraining phenomena, validating the PIT conductor used for the first time in this magnet program.
ISSN:1051-8223
1558-2515
DOI:10.1109/tasc.2018.2810100