Summary
This paper describes a conceptual design for a 20 T hybrid dipole magnet combining high-temperature superconducting (REBCO) and low-temperature superconducting (Nb₃Sn) components in a cos-theta coil geometry with cold iron yoke. The design addresses mechanical stress management challenges inherent to high-field HTS/LTS hybrid systems through integrated stress management concepts. Magnetic analysis results are presented to validate the proposed approach.
UK applicability
This work is not directly applicable to UK agricultural, soil health, or food systems research, as it concerns advanced accelerator magnet technology rather than farming or nutrition.
Key measures
Magnetic field strength (20 T nominal), aperture diameter (50 mm), stress and strain analysis in superconducting coils
Outcomes reported
The study presented magnetic analysis results for a hybrid HTS/LTS dipole magnet design achieving 20 T nominal field with 50 mm aperture. The design incorporates stress management concepts to mitigate sensitivity to large stresses and strains at high magnetic fields.
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