Summary
This paper describes the development and fabrication of a stress-management cos-theta (SMCT) dipole coil at Fermilab, a novel concept designed to mitigate excessive coil deformations and stresses under Lorentz forces in high-field accelerator magnets. The authors detail the design specifications and assembly of a large-aperture Nb₃Sn SMCT coil within a dipole mirror configuration, contributing to the US Magnet Development Program's advancement of superconducting magnet technology for particle accelerators.
UK applicability
This work has no direct applicability to UK farming systems, soil health, nutrient density, or human health. The record appears to be incorrectly catalogued in Vitagri's Pulse Brain, as it concerns particle accelerator magnet engineering rather than agricultural or nutritional science.
Key measures
Coil design parameters, fabrication methodology, assembly procedures, and mechanical stress/strain reduction in dipole mirror configuration
Outcomes reported
The paper reports the design, fabrication, and assembly of a large-aperture Nb₃Sn stress-management cos-theta (SMCT) dipole coil with 60-mm aperture, demonstrating the SMCT concept for reducing coil deformations under Lorentz forces.
Topic tags
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