Fe-based high field superconductors for cost-effective future accelerator magnets

Abstract

We propose a targeted attack on making the Fe-based superconductor (FBS) AEFe2As2 (122) (AE = alkaline earth, here Ba or Sr) into a much cheaper, higher stability margin, round, twisted and effectively isotropic multifilament conductor suitable for 16-20 T dipole magnet construction. This white paper urges to greatly accelerate progress by providing a fundamental understanding of what controls the transport critical current density, Jc, of 122 polycrystals and then in the wire forms. High grain-to-grain Jc is the one key property not yet fully demonstrated in this new superconductor and this is the key breakthrough that would make 122 practical. Whereas the intragrain (i.e. vortex pinning) Jc is already high enough to replace Nb3Sn, our recent work strongly suggests that unpredictable superconducting connectivity at grain boundaries (GBs) is the critical problem that limits the long-range Jc. We strongly emphasize the need to evaluate the true intrinsic nature of GBs in the polycrystalline forms before focusing on the wire fabrication.