Summary
This technical paper presents the conceptual design of a block-coil dipole magnet option for the Future Circular Collider, developed within the EuroCirCol project at CEA Saclay. The authors employ 2-D electromagnetic analysis in a double-aperture configuration and 3-D magnetic optimisation to minimise coil end length whilst satisfying field quality requirements, followed by 2-D mechanical analysis of the coil structure under loading. The results demonstrate that peak field values are lower in the coil ends compared to the straight section, meeting all specified design criteria.
UK applicability
This research is not applicable to UK agricultural or food systems research. It concerns fundamental particle accelerator physics and engineering design.
Key measures
Peak magnetic field values, field quality in straight sections and coil ends, coil end length, mechanical stress under loading
Outcomes reported
This paper reports the electromagnetic and mechanical design optimisation of a block-coil dipole magnet for the Future Circular Collider, including 2-D and 3-D analyses of field quality, peak field distribution, and coil end integration.
Topic tags
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