2009
DOI: 10.1109/tasc.2009.2017706
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Magnetization Effects on the Superconducting Combined Magnet Prototype for XFEL

Abstract: The superconducting combined magnets for the main linac are part of the Spanish contribution to XFEL. Each magnet consists of a superferric quadrupole for focusing and two dipoles (horizontal and vertical) for steering, glued on the beam tube. The magnets will be operated in a superfluid helium bath. The aperture is 78 mm. The quadrupole gradient is 35 T/m whereas each dipole field is about 0.04 T. This paper reports about the magnetic measurements made on the first prototype. Measured field quality matches ca… Show more

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Cited by 8 publications
(5 citation statements)
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“…The first option was investigated for ILC, and XFEL. It was found rather large cross-talk between magnets due to the superconductor magnetization effects for ILC [9], and XFEL [10]. In the ILC magnet with combined dipole correctors there is rather strong coupling through the superconductor magnetization which increases the quadrupole magnetic center shift during the quadrupole strength change [9].…”
Section: Separate Dipole Correctorsmentioning
confidence: 99%
“…The first option was investigated for ILC, and XFEL. It was found rather large cross-talk between magnets due to the superconductor magnetization effects for ILC [9], and XFEL [10]. In the ILC magnet with combined dipole correctors there is rather strong coupling through the superconductor magnetization which increases the quadrupole magnetic center shift during the quadrupole strength change [9].…”
Section: Separate Dipole Correctorsmentioning
confidence: 99%
“…These machines use various superconducting magnets to provide particle beam steering and focusing. The main beam focusing element is a superconducting quadrupole mounted inside a cryomodule between SCRF cavities [4][5][6].…”
Section: Everalmentioning
confidence: 99%
“…The magnet for TESLA Test Facility was based on shell type coils [4]. For ILC [1], XFEL [2], and Project-X [3] relatively weak quadrupoles are based on racetrack type coils where the magnetic field is shaped by iron poles [4][5][6][7][8]. Because the beam size in these accelerators is very small, this approach is more efficient from a technological point of view.…”
Section: Quadrupole Magnet Conceptmentioning
confidence: 99%
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