Anomalous transport in normal-superconducting and ferromagnetic-superconducting nanostructures

Abstract

We have calculated the temperature dependence of the conductance variation (δ S(T)) of mesoscopic superconductor normal metal(S/N) structures, in the diffusive regime, analysing both weak and strong proximity effects. We show that in the case of a weak proximity effect there are two peaks in the dependence of δ S(T) on temperature. One of them (known from previous studies) corresponds to a temperature T1 of order of the Thouless energy (εTh), and another, newly predicted maximum, occurs at a temperature T2 where the energy gap in the superconductor (T2) is of order εTh. In the limit Lφ<L the temperature T1 is determined by D /L2φ (Lφ is the phase breaking length), and not εTh. We have also calculated the voltage dependence δ S(V) for a S/F structure (F is a ferromagnet) and predict non-monotonic behaviour at voltages of order the Zeeman splitting.

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