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25 T Physics Magnet. W. Denis Markiewicz Users Committee Meeting November 12-13, 2004. Candidate High Field Superconducting Magnets. VHF NMR Field 25 T – 28 T Warm bore 52 mm High resolution Persistent. 25 T standard uniformity Uniformity 1x10 -3 – 1x10 -4
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25 T Physics Magnet W. Denis Markiewicz Users Committee Meeting November 12-13, 2004
Candidate High Field Superconducting Magnets VHF NMR Field 25 T – 28 T Warm bore 52 mm High resolution Persistent 25 T standard uniformity Uniformity 1x10-3 – 1x10-4 Cold bore 52 mm Powered Rampable
HTS Conductor Preference and Availability Conductor preference high field properties long lengths, precision layer winding persistent joint technology Conductor availability good high field electrical properties usable mechanical properties powered mode technology
HTS Conductor Preference and Availability Conductor preference high field properties long lengths, precision layer winding persistent joint technology very far off Conductor availability good high field electrical properties usable mechanical properties powered mode technology presently available
The Most Robust Conductor on the Market – Fit for Industrial Handling High Strength Wire Specifications: Thickness (avg) 0.29 - 0.32 mm Width 4.0 – 4.4 mm Min Ic, Je: 115 A, 9.0 kA/cm2 125 A, 9.8 kA/cm2 135 A, 10.5 kA/cm2 145 A, 11.3 kA/cm2 Critical Bend Diameter 50mm Critical Tensile Stress: 300MPa (77K) Critical Tensile Strain: 0.35% (77K) Piece Length 100 - 400m Longer lengths available with splices American Superconductor
Alternative Programs available HTS conductor related HTS coil technology 25 T 1.1 GHz 25 T and 1.1 GHz
25T Research Solenoid(not funded) • Special requirements • Very high field (too high for LTS alone) • Moderate cycling, 0 to high field • Approach • LTS/HTS technology • Improved, high-strength Nb3Sn • HTS tape conductors • Bi-2212 • Bi-2223 • General improvements to intra-coil materials and components • 4.2K bath cooling • Involve commercial sector to the greatest practical extent • Technology needs • Improved and expanded database for materials and components • Careful modeling and test of critical components • No inventions foreseen • Cost and schedule • 8-10 M$ for LTS section • ? for HTS section • 6 years to turn on (tech-limited schedule) 25T RS 900 MHz
Magnet Technology Development HTS technology conductor electrical characteristics conductor mechanical characteristics joint technology, soldered quench characteristics, protection LTS technology high strength conductor Nb3Sn lead structure coil form interface insulation cleaning
25 T Magnet Direction The 25 T research magnet is not considered to be on the technology development path to a high field NMR magnet. The interest in the magnet should be based on the research objectives that are addressed by this magnet. The present work indicates a relatively large powered magnet, relatively slow to ramp, and relatively expensive. The technology development that would be done in support of a high field NMR magnet would be applicable to a future 25 T magnet.