Sub-gap conductance in ferromagnetic-superconducting mesoscopic structures
Abstract
We study the sub-gap conductance of a ferromagnetic mesoscopic region attached to a ferromagnetic and a superconducting electrode by means of tunnel junctions. In the absence of the exchange field, the ratio r= γ / εT of the two tunnel junction resistances determines the behaviour of the sub-gap conductance which possesses a zero-bias peak for r 1 and for r 1 a peak at finite voltage. We show that the inclusion of the exchange field leads to a peak splitting for r 1, while it shifts the zero-bias anomaly to finite voltages for r 1.
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