Theory of critical currents and perpendicular upper critical fields for superconducting proximity systems
Technical Report
·
OSTI ID:5259975
The maximum supercurrent that can be carried in an applied perpendicular magnetic field by a superconducting-normal-metal-superconducting (SNS) junction consisting of a square normal-metal layer sandwiched between two crossed perpendicular superconducting strips is investigated theoretically. For weak applied fields, the critical current is suppressed reversibly, as induced Meissner screening currents flow into the SNS sandwich and generate a spatially varying magnetic field largely parallel to the junction, thereby altering the local phase difference. For stronger applied fields, the critical current is changed irreversibly as vortices enter and become pinned in the junction. When the pinned vortices in the two superconductors are misaligned, the local magnetic field, which flows mostly parallel to the junction in carrying magnetic flux from one vortex to the other, strongly alters the phase difference across the junction near the two vortices. The theory predicts complex patterns of the supercurrent density, which should be directly observable using laser or electron-beam scanning techniques. Eilenberger's quasi-classical formulation of superconductivity is used to derive an equation for the upper critical field of a multilayered SN system in a perpendicular magnetic field. The alternating layers are coupled via the proximity effect and are in the dirty limit. Comparison with experimental data for Nb/Cu multilayers shows good agreement only if the mean free paths are substantially smaller than those obtained from longitudinal resistivity measurements. One feature of this theory is the presence of positive curvature in the upper critical field near the critical temperature.
- Research Organization:
- Ames Lab., IA (USA)
- DOE Contract Number:
- W-7405-ENG-82
- OSTI ID:
- 5259975
- Report Number(s):
- IS-T-1192; ON: DE85017170
- Country of Publication:
- United States
- Language:
- English
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