Subharmonic gap structures and Josephson effect in MgB2/Nb micro-constrictions

Abstract

Superconducting micro-constrictions between Nb tips and high quality MgB2 pellets have been realized by means of a point-contact inset, driven by a micrometric screw. Measurements of the current-voltage characteristics and of the dynamical conductance versus bias have been performed in the temperature range between 4.2 K and 500 K. Above the Nb critical temperature TCNb, the conductance of the MgB2/normal-metal constrictions behaves as predicted by the BTK model for low resistance contacts while high resistance junctions show quasiparticle tunneling characteristics. Consistently, from the whole set of data we infer the value π = 2.5 0.2 meV for the three-dimensional gap of MgB2. Below TCNb, low resistance contacts show Josephson current and subharmonic gap structures (SGS), due to multiple Andreev reflections. Simultaneous observations of both features, unambiguously indicate coupling of the 3D band of MgB2 with the Nb superconducting order parameter. We found that the temperature dependence of the Josephson critical current follows the classical Ambegaokar-Baratoff behavior with a value ICRN=(2.1 0.1) meV at low temperatures.

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