Field quality of the LHC inner triplet quadrupoles being fabricated at Fermilab

Author

Velev, G.V. ; Bossert, R. ; Carcagno, R. ; Carson, J. ; Chichili, D. ; DiMarco, J. ; Feher, S. ; Glass, H. ; Kashikhin, V.V. ; Kerby, J. ; Lamm, M. ; Nicol, T. ; Nobrega, A. ; Orris, D. ; Page, T. ; Peterson, T. ; Rabehl, R. ; Schlabach, P. ; Strait, J. ;

Author_Institution

Fermi Nat. Accel. Lab., USA

Volume

3

fYear

2003

fDate

12-16 May 2003

Firstpage

1969

Abstract

Fermilab, as part of the US-LHC Accelerator Project, has designed and is producing superconducting low-beta quadrupole magnets for the Large Hadron Collider (LHC). These 70 mm bore, 5.5 m long magnets operate in superfluid helium at 1.9 K with a maximum operating gradient of 214 T/m. Two quadrupoles, combined with a dipole orbit corrector, form a single LQXB cryogenic assembly, the Q2 optical element of the final focus triplets in the LHC interaction regions. Field quality was measured at room temperature during fabrication of the cold masses as well as at superfluid helium temperature in two thermal cycles for the first LQXB cryogenic assembly. Integral cold measurements were made with a 7.1 m long rotating coil and with a 0.8 m long rotating coil at 8 axial positions and in a range of currents. In addition to the magnetic measurements, this paper reports on the quench performance of the cold masses and on the measurements of their internal alignment.

Keywords

accelerator magnets; cryogenics; particle beam diagnostics; particle beam dynamics; proton accelerators; storage rings; superconducting coils; superconducting magnets; synchrotrons; 0.8 m; 1.9 K; 20 to 25 degC; 5.5 m; 5.5 m long magnets; 7.1 m; 70 mm; 70 mm bore; Fermilab; LHC inner triplet quadrupoles field quality; LHC interaction regions; Large Hadron Collider; Q2 optical element; US-LHC Accelerator Project; axial positions; cold masses; dipole orbit corrector; fabrication; final focus triplets; integral cold measurements; internal alignment; magnetic measurements; maximum operating gradient; quench performance; room temperature; rotating coil; single LQXB cryogenic assembly; superconducting low-beta quadrupole magnets; superfluid helium temperature; thermal cycles; Accelerator magnets; Assembly; Coils; Cryogenics; Extraterrestrial measurements; Helium; Large Hadron Collider; Magnetic field measurement; Superconducting magnets; Temperature measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the

ISSN

1063-3928

Print_ISBN

0-7803-7738-9

Type

conf

DOI

10.1109/PAC.2003.1288742

Filename

1288742