Applied Electromagnetics Using QuickField and MATLAB

Section 8.8 - Superconductivity: Layered Superconducting and Permeable Shields

While superconductors shield by expelling flux, highly permeable |l-metals effectively channel flux away from shielded regions. Transverse fields are preferentially screened by μ-metal while superconductors more effectively screen axial fields. The following examples illustrate increased shielding of transverse fields by layered superconducting and permeable materials.

FIGURE 8.9 Tri-layered superconducting and μ-metal disk in a transverse field. The μ-metal side tabs help channel flux in between the superconducting disks (modeled in x-y coordinates).

Superconducting & Highly Permeable Metal Sandwich

A tri-layered superconducting and μ-metal disk in a transverse field is illustrated in Figure 8.9. Additional μ-metal side tabs help channel flux in between the superconducting disks (modeled in x-y coordinates). The tangential field directly above the superconductor is reduced by roughly a factor of two compared to the superconducting disk without the μ-metal layer.

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