Lawrence Berkeley National Laboratory
Author in the following contributions
- Wed-Mo-Po.04-03: Numerical simulations of a thermal runaway in Bi-2212 conductors and comparison with REBCO conductors
- Sat-Mo-Po.06-03: Evaluation of the room temperature field quality measurements of HL-LHC MQXFA magnet assemblies
- Fri-Af-Po.06-06: Feasibility study of low-inductance high-field solenoid magnets using CORC® conductors
- Sat-Mo-Po.07-03: Thermal Performance of a Conduction-Cooled ReBCO Magnet: Cyclic Cool-Down, Conduction Cooling Design, and Thermal Gradient Studies
- Thu-Af-Po.02-10: Study of current sharing in high-temperature superconducting CORC® cables using finite-element model coupled with electrical circuit
- Sat-Mo-Po.07-08: Design and prototyping of CORC CCT inserts for testing in background dipole fields
- Wed-Af-Or1-01: Fabrication and test results of a canted cosθ dipole magnet using high-temperature superconducting CORC® wires
- Wed-Af-Or1-05: Development of HTS magnets based on the Uni-Layer concept.
- Sat-Af-Mem1-06: Development of high-field dipole and solenoid magnets using the latest generation of CORC® cables and wires
- Fri-Mo-Or2-03: A Numerical Comparison of the 3D Mechanics of REBCO CORC® Dipole Designs
- Sat-Mo-Or3-02: Effect of transverse compressive loads applied at room temperature on the electromagnetic performance of superconducting STAR® wires
- Fri-Mo-Or5-01: High-performance REBCO conductors and cables for high magnetic field applications
- Sat-Mo-Or6-07: Warm to cold correlations and other test results of the MQXFA low-beta quadrupole magnets for the High-Luminosity Large Hadron Collider
- Wed-Af-Po.08-07: [Invited] Distributed deformation monitoring of canted cosθ dipole high-temperature superconducting magnet using fiber optic
