- Ambrosio, G;
- Andreev, N;
- Anerella, M;
- Barzi, E;
- Bocian, D;
- Bossert, R;
- Buehler, M;
- Caspi, S;
- Chlachidze, G;
- Dietderich, D;
- DiMarco, J;
- Escallier, J;
- Felice, H;
- Ferracin, P;
- Ghosh, A;
- Godeke, A;
- Hafalia, R;
- Hannaford, R;
- Jochen, G;
- Kim, MJ;
- Kovach, P;
- Lamm, M;
- Marchevsky, M;
- Muratore, J;
- Nobrega, F;
- Orris, D;
- Prebys, E;
- Prestemon, S;
- Sabbi, GL;
- Schmalzle, J;
- Sylvester, C;
- Tartaglia, M;
- Turrioni, D;
- Velev, G;
- Wanderer, P;
- Whitson, G;
- Zlobin, AV
After the successful test of the first long Nb 3Sn quadrupole (LQS01) the US LHC Accelerator Research Program (LARP, a collaboration of BNL, FNAL, LBNL and SLAC) is assessing training memory, reproducibility, and other accelerator quality features of long Nb 3Sn quadrupole magnets. LQS01b (a reassembly of LQS01 with more uniform and higher pre-stress) was subjected to a full thermal cycle and reached the previous plateau of 222 T/m at 4.5 K in two quenches. A new set of four coils, made of the same type of conductor used in LQS01 (RRP 54/61 by Oxford Superconducting Technology), was assembled in the LQS01 structure and tested at 4.5 K and lower temperatures. The new magnet (LQS02) reached the target gradient (200 T/m) only at 2.6 K and lower temperatures, at intermediate ramp rates. The preliminary test analysis, here reported, showed a higher instability in the limiting coil than in the other coils of LQS01 and LQS02. © 2011 IEEE.