Summary
This paper describes the baseline design of a 16 Tesla superconducting dipole magnet developed under the EuroCirCol project, a collaborative European effort contributing to the Future Circular Collider feasibility study. The magnet, fabricated from Nb₃Sn in a cos theta configuration with dual apertures, represents advances in high-field magnet engineering required to bend particle beams within practical collider constraints. The work updates prior electromagnetic designs and adds detailed mechanical and 3-D coil-end analysis to support the FCC Conceptual Design Report.
UK applicability
This research is not directly applicable to UK agriculture, farming systems, or food production. It represents fundamental research infrastructure development relevant to UK-based particle physics institutions participating in international collider projects, but falls entirely outside the scope of agricultural and nutritional research.
Key measures
Bore field strength (16 T), aperture diameter (50 mm), electromagnetic field configuration, mechanical stress analysis, coil-end geometry
Outcomes reported
The study presents an updated electromagnetic design of a 16 T Nb₃Sn cos theta dipole magnet in double-aperture configuration, including 2-D mechanical analysis and 3-D coil-end studies for use in the Future Circular Collider.
Topic tags
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