Severe discrepancies between experiment and theory in the superconducting proximity effect
Abstract
The superconducting proximity effect is investigated for SN double layers in a regime where the resulting transition temperature Tc does not depend on the mean free paths of the films and, within limits, not on the transparency of the interface. This regime includes the thin film limit and the normalized initial slope Ssn= (ds/Ts)|dTc/ddn|. The experimental results for Tc are compared with a numerical simulation which was recently developed in our group. The results for the SN double layers can be devided into three groups: (i) When N = Cu, Ag, Au, Mg a disagreement between experiment and theory by a factor of the order of three is observed, (ii) When N = Cd, Zn, Al the disagreement between experiment and theory is reduced to a factor of about 1.5, (iii) When N = In, Sn a reasonably good agreement between experiment and theory is observed.
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