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Linear Collider Final Focus
Magnet Construction
The final focus magnets for the International Linear Collider require very
small quadrupoles be placed within the detector background field for both
the entrance and exit beams. The use of superconducting magnets for this
function provide solutions to several problems confronting the machine
designers.
One constraint is the operation within the 3 tesla detector field. The
direct wind magnets are capable of operation without the use of magnetic
materials in their construction, making them ideal for compact focussing
solutions within detectors.
The second constraint is the small physical size dictated by the crossing
angle of the beams and proximity to the IR within the detector solenoid.
The Direct Wind design does not require a collar to withstand Lorentz
forces, making the overall size of the magnets far smaller, and eliminates
the lead time associated with high quality stainless tooling.
A Direct Wind quad magnet which meets both field quality and strength has
been fabricated and tested at the Superconducting Magnet Division, and was
reported upon at Snowmass 2005.
Progress to date with the direct wind technique is separated here into
four categories.
Links to:
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Single strand superconductor windings |
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Superconducting cable winding tests
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Cable wound six layer quadrupole |
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Cable wound sextupole
First pass winding tests, R & D efforts |
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Cable wound two layer quadrupole shielding coil |
For more information contact
John Escallier
Last update on:
February 22, 2008 by
J. Escallier. |
