CERN Accelerating science

Published Articles
Title Quench Performance of HQ01, a 120 mm Bore LARP Quadrupole for the LHC Upgrade
Author(s) Marchevsky, M (LBL, Berkeley) ; Ambrosio, G (Fermilab) ; Bingham, B (LBL, Berkeley) ; Bossert, R (Fermilab) ; Caspi, S (LBL, Berkeley) ; Cheng, D W (LBL, Berkeley) ; Chlachidze, G (Fermilab) ; Dietderich, D (LBL, Berkeley) ; DiMarco, J (Fermilab) ; Felice, H (LBL, Berkeley) ; Ferracin, P (LBL, Berkeley) ; Ghosh, A (Brookhaven Natl. Lab.) ; Hafalia, A R (LBL, Berkeley) ; Joseph, J (LBL, Berkeley) ; Lizarazo, J (LBL, Berkeley) ; Sabbi, G L (LBL, Berkeley) ; Schmalzle, J (Brookhaven Natl. Lab.) ; Wanderer, P (Brookhaven Natl. Lab.) ; Wang, X (LBL, Berkeley) ; Zlobin, A V (Fermilab)
Publication 2012
Number of pages 5
In: IEEE Trans. Appl. Supercond. 22 (2012) 4702005
In: 22nd International Conference on Magnet Technology, Marseille, France, 12 - 16 Sep 2011, pp.4702005
DOI 10.1109/TASC.2012.2185671
Subject category Accelerators and Storage Rings
Accelerator/Facility, Experiment CERN LHC
LARP
Project CERN HL-LHC
Abstract We report quench test results for the 1-meter long, 120 mm aperture Nb$_3$Sn quadrupole magnet, HQ01, designed, fabricated and tested for the LHC Accelerator Research Program (LARP). The magnet has a design gradient of 219 T/m at 1.9 K and peak field of  15 T. Earlier tests (HQ01a, b) showed peak gradients of 152 T/m at 4.4 K but also revealed electrical insulation weaknesses that ultimately led to coil damage. Structural and electrical improvements incorporated into HQ01c magnet have assured and tracked the electrical integrity of the coils. The most recent HQ01d and HQ01e tests demonstrated gradients of 170 T/m at 4.4 K (86% of short sample critical current) with moderate training. By analyzing magnet voltage test data, quench propagation velocities and quench locations were determined. Most of the quenches tended to cluster around the pole region of the coils. Eight PC-board quench antennas were installed to better identify quench locations. We monitored longitudinal propagation of pole-turn quenches and correlated inductive responses of the quench antennas with magnet voltages. On down-ramps, the HQ magnet exhibited no quenches at rates up 150 A/s; the experimental ramp-rate dependence was analyzed using a simple `loss model'.
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