Magnetic design of large-bore superconducting quadrupoles for the AHF

N. Andreev, A. Jason, V.S. Kashikhin, V.V. Kashikhin, P.J. Limon, J. Tompkins, P. Walstrom
2003 IEEE transactions on applied superconductivity  
The Advanced Hydrotest Facility (ANF), under study by LANL., utilizes large-bore superconducting quadrupole magnets to image protons for radiography of fast events. In this concept, 50-GeV proton bunches pass through a thick object and are imaged by a lens system that analyzes the scattered beam to determine object details. Twelve simultaneous views of the object are obtained using multiple beam lines. The lens system uses two types of quadrupoles: a large bore (48-cm beam aperture) for wide
more » ... erture) for wide field of view imaging and a smaller bore (23 cm aperture) for higher resolution images. The gradients of the magnets are 10.14 T/m and 18.58 T/m with magnetic lengths of 4.3 m and 3.0 m, respectively. The magnets are sufficiently novel to present a design challenge. Evaluation and comparisons were made for various types of magnet design: shell and racetrack coils, cold and warm iron, as well as an active superconducting screen. Nb3Sn cable was also considered as an alternative to avoid quenching under high beam-scattering conditions. The superconducting shield concept eliminates the iron core and greatly lessens the cryogenic energy needed for cool down. Several options are discussed and comparisons are made.
doi:10.1109/tasc.2003.812670 fatcat:g2etnw3etzf3pncfghsv6bsxwy