The Ohio State University
Author in the following contributions
- Conductor Technology Needs
- Thu-Mo-Po4.07-05 [50]: Field Quality Measurements of High-Temperature Superconducting Canted Cosine Theta Accelerator Magnets
- Wed-Af-Po3.25-02 [106]: Development of MgB2 superconductor wire and coils for AC and DC applications
- Wed-Af-Po3.21-02 [68]: Refining the grain size and improving critical current in tube type Nb3Sn conductor in Hyper Tech
- Tue-Mo-Po2.10-04 [76]: Direct Measurement of Modified Interconductor Contact Resistance Values in Coated Conductor Stacks and Roebel Cables
- Wed-Af-Po3.15-14 [18]: New Application of Superconducting MgB2 Tubes for Passive Magnetic Field Shielding for Electron Ion Collider
- Thu-Mo-Po4.07-07 [52]: AC Loss of Superconducting Materials- refined loss estimates for very high density motors and generators for hybrid-electric aircraft: MgB2 wires, Coated conductor tapes and wires
- Tue-Mo-Po2.13-04 [111]: FEM modeling of stability and current sharing in Nb3Sn Rutherford cables
- Wed-Mo-Po3.07-08 [49]: Modelling of Field and Field Quality in a YBCO Coated- Conductor Wound Planar Undulator
- Tue-Mo-Po2.06-05 [36]: FEM modelling of superconducting whole body, actively shielded 7 T MRI segmented coil magnets wound using Nb3Sn strands
- Wed-Mo-Or11-01 [Invited]: Magnetization, Flux Penetration, and Drift of YBCO Cable Segments Models and Measurements for Accelerator Magnet Applications
- Wed-Af-Or14-05: Evolution of Nano-particles Doping in Nb3Sn Wires
- Tue-Mo-Or9-04: Magnetic, mechanical and thermal modeling of superconducting, whole-body, actively shielded, 3 T MRI magnets wound using MgB2 strands for liquid cryogen free operation
