Challenges and Lessons Learned from fabrication, testing and analysis of   eight MQXFA Low Beta Quadrupole magnets for HL-LHC

G. Ambrosio (1); K. Amm (2); M. Anerella (2); G. Apollinari (1); G.; Arnau Izquierdo (5); M. Baldini (1); A. Ballarino (5); C. Barth (5); A. Ben; Yahia (2); J. Blowers (1); P. Borges De Sousa (5); R. Bossert (1); B. Bulat; (5); R. Carcagno (1); D. W. Cheng (3); G. Chlachidze (1); L. Cooley (4); M.; Crouvizier (5); A. Devred (5); J. DiMarco (1); S. Feher (1); P. Ferracin (3),; J. Ferradas Troitino (5); L. Garcia Fajardo (3); S. Gourlay; H. M. Hocker; (2); S. Izquierdo Bermudez (5); P. Joshi (2); S. Krave (1); E. M. Lee (3); J.; Levitan (4); V. Lombardo (1); J. Lu (4); M. Marchevsky (3); V. Marinozzi (1),; A. Moros (5); J. Muratore (2); M. Naus (3); F. Nobrega (1); T. Page (1); I.; Pong (3); J.C. Perez (5); S. Prestemon (3); E. Ravaioli (5); K. L. Ray (3),; G. Sabbi (3); J. Schmalzle (2); J. Seyl (1); S. Sgobba (5); S. Stoynev (1),; T. Strauss (1); E. Todesco (5); D. Turrioni (1); G. Vallone (3); R. Van; Weelderen (5); P. Wanderer (2); X. Wang (3); M. Yu (1) ((1) Fermilab; (2); Brookhaven National Laboratory; (3) LBNL; Berkeley; (4) National High; Magnetic Laboratory; (5) CERN)

arXiv:2301.09523·physics.acc-ph·May 3, 2023

Challenges and Lessons Learned from fabrication, testing and analysis of eight MQXFA Low Beta Quadrupole magnets for HL-LHC

G. Ambrosio (1), K. Amm (2), M. Anerella (2), G. Apollinari (1), G., Arnau Izquierdo (5), M. Baldini (1), A. Ballarino (5), C. Barth (5), A. Ben, Yahia (2), J. Blowers (1), P. Borges De Sousa (5), R. Bossert (1), B. Bulat, (5), R. Carcagno (1), D. W. Cheng (3), G. Chlachidze (1)

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TL;DR

This paper reports on the fabrication, testing, and analysis of eight MQXFA low beta quadrupole magnets for HL-LHC, highlighting lessons learned, test results, and improvements in assembly specifications.

Contribution

It provides a comprehensive summary of magnet fabrication, testing outcomes, failure analysis, and design revisions for MQXFA magnets used in HL-LHC upgrades.

Findings

01

Some magnets did not meet acceptance criteria and were disassembled.

02

Lessons learned led to revised assembly specifications.

03

Finite element analysis helped correlate test observations with performance.

Abstract

By the end of October 2022, the US HL-LHC Accelerator Upgrade Project (AUP) had completed fabrication of ten MQXFA magnets and tested eight of them. The MQXFA magnets are the low beta quadrupole magnets to be used in the Q1 and Q3 Inner Triplet elements of the High Luminosity LHC. This AUP effort is shared by BNL, Fermilab, and LBNL, with strand verification tests at NHMFL. An important step of the AUP QA plan is the testing of MQXFA magnets in a vertical cryostat at BNL. The acceptance criteria that could be tested at BNL were all met by the first four production magnets (MQXFA03-MQXFA06). Subsequently, two magnets (MQXFA07 and MQXFA08) did not meet some criteria and were disassembled. Lessons learned during the disassembly of MQXFA07 caused a revision to the assembly specifications that were used for MQXFA10 and subsequent magnets. In this paper, we present a summary of: 1) the…

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