Open Access Te Herenga Waka-Victoria University of Wellington
Browse

Numerical determination of the threshold magnetic field in superconducting strips and coils triggering dynamic resistance

Download (1000.77 kB)
journal contribution
posted on 2024-11-28, 22:24 authored by Yueming SunYueming Sun, Jun Ma, Shuangrong You, Rodney BadcockRodney Badcock, Zhenan JiangZhenan Jiang
Abstract The threshold magnetic field is a key parameter for evaluating the current decay caused by dynamic resistance in superconducting windings and magnets. For a DC-carrying superconducting slab under an AC parallel magnetic field, the analytical theory clearly shows that there is only one electric central line (ECL) across the slab width at the onset of dynamic-resistance. However, threshold magnetic fields in superconducting strips and coils have not been fully investigated. Based onthe one-ECL criterion, this paper first presents a method for numerically determining the threshold magnetic field via the evolving internal magnetic field in superconducting strips and coils. By probing transient electromagnetic behaviours, interestingly, we found a distinctive feature of superconducting strips in which a wide region of zero electrical field is observed when dynamic resistance/loss initially occurs. With increasing magnetic fields, this region gradually shrinks and eventually become the ECL. More importantly, this numerical method can analyse the local threshold magnetic field in a targeted coil turn. The ability to quantify threshold magnetic field provides a clear guidance on the acceptable level of ripple and harmonic magnetic fields for coil windings in superconducting maglev trains and field windings of superconducting machines operating at persistent current mode.

Funding

CHARACTERIZING AC LOSSES OF VARIOUS ADVANCED CONDUCTORS IN THE STATORS OF ROTATING MACHINES | Funder: United States Department of the Air Force | Grant ID: FA23862214054

History

Preferred citation

Sun, Y., Ma, J., You, S., Badcock, R. A. & Jiang, Z. (2024). Numerical determination of the threshold magnetic field in superconducting strips and coils triggering dynamic resistance. Superconductor Science and Technology, 37(12), 12lt02-. https://doi.org/10.1088/1361-6668/ad8e01

Journal title

Superconductor Science and Technology

Volume

37

Issue

12

Publication date

2024-12-01

Pagination

12lt02

Publisher

IOP Publishing

Publication status

Published online

Online publication date

2024-11-02

ISSN

0953-2048

eISSN

1361-6668

Usage metrics

    Journal articles

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC