Summary
This paper documents the mechanical design development of a cosθ 16-Tesla bending dipole magnet within the EuroCirCol collaboration's Future Circular Collider project. The work addresses a central engineering challenge in designing a next-generation hadron collider capable of accelerating protons to 50 TeV within an 80–100 km circumference tunnel. The authors report that viable mechanical solutions have been identified for the 16 T dipole specification.
UK applicability
This particle physics infrastructure research has limited direct applicability to UK agricultural, soil health, or food systems contexts. However, UK participation in European high-energy physics collaborations may benefit from the technical advances reported.
Key measures
Magnetic field strength (16 Tesla), dipole mechanical design specifications, engineering feasibility assessment
Outcomes reported
The study presents the mechanical design of a cosθ 16-Tesla bending dipole magnet for the Future Circular Collider project, demonstrating that promising engineering solutions have been identified to meet the technical requirements.
Topic tags
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