Summary
This paper describes the development and cryogenic testing of a 15 T Nb₃Sn dipole magnet (MDPCT1) designed as a demonstrator for post-LHC proton-proton collider applications. The magnet employs graded current density across four-layer coils with a 60-mm aperture, constrained by iron laminations and stainless-steel skin. Following reassembly with full pre-load and retesting, the authors report detailed magnetic performance metrics including field strength, harmonic content, and saturation behaviour.
UK applicability
This research has no direct applicability to United Kingdom agricultural, farming systems, soil health, nutrient density, or human health contexts. It is a fundamental physics and engineering study relevant to international high-energy physics infrastructure.
Key measures
Magnetic field strength (Tesla), geometrical harmonics, coil magnetisation, iron saturation characteristics, pre-load conditions
Outcomes reported
The study reports magnetic measurement results from cryogenic testing of a 15 T Nb₃Sn dipole magnet, including field strength, geometrical harmonics, coil magnetisation, and iron saturation characteristics.
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