Advanced Conductor Technologies
Author in the following contributions
- Thu-Af-Or20-01 [Invited]: Quench detection via Rayleigh backscattering interrogated optical fibers
- Tue-Mo-Po2.10-02 [74]: Electromechanical analysis of simplified CORC® cable configurations: experiments and FE modeling
- Thu-Mo-Po4.04-02 [25]: Development of CORC® Cable Terminations and Low-loss Joints for use in Magnets for Fusion
- Thu-Af-Or19-06: Electromechanical Performance of CORC® Cables and Wires under Axial Tension and Transverse Compression
- Tue-Mo-Or8-02: Recent progress on CORC® cable and wire development for magnet applications
- Wed-Af-Or13-04: Development of REBCO dipole magnets using CORC® wires
- Mon-Af-Or6-02: Manufacturing and Test of Next Generation 100 kA @ 10 T and 4.5 K ReBCO-CORC Cable-In-Conduit Conductors for Large-Scale Magnets
- Mon-Mo-Or2-01: Technology for Compact CORC Multi-Layer Solenoid and Racetrack Coils
- Mon-Mo-Or2-02: High-field magnets wound from CORC® cables and wires
