A model equating the temperature-dependent phase shift to the difference in kinetic inductances of wide and narrow semirings in asymmetric aluminum rings, enabled by differing critical temperatures, explains the observed critical current maxima shifts and resolves prior experimental contradictions.
Tinkham, Introduction to Superconductivity, McGraw- Hill Book Co., New Y ork, 2nd edition
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Negative voltages observed in quasi-1D Al superconductor structure due to quasiparticle current at N-S interface, with temperature and field dependences modeled using equilibrium or nonequilibrium fluctuations.
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Shift of the maxima of the critical currents of different polarity relative to the zero magnetic flux along the flux axis in a superconducting asymmetric aluminum ring
A model equating the temperature-dependent phase shift to the difference in kinetic inductances of wide and narrow semirings in asymmetric aluminum rings, enabled by differing critical temperatures, explains the observed critical current maxima shifts and resolves prior experimental contradictions.
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Negative nonlocal and local voltages (resistances) in a quasi-one-dimensional superconducting aluminum structure
Negative voltages observed in quasi-1D Al superconductor structure due to quasiparticle current at N-S interface, with temperature and field dependences modeled using equilibrium or nonequilibrium fluctuations.