Phase coherent transport in mesoscopic superconducting structures

Four-terminal magnetotransport measurements have been performed on a mesoscopic graphite wire with a thickness of about seven graphene layers in which the carrier density can be tuned via the field effect using a back gate and in-plane gates. The conductance measured as a function of back gate volta

Using an approach based on quasiclassical Green's functions we present a theoretical study of transport in mesoscopic SN structures in the diffusive limit. The subgap conductance in SN structures with barriers (zero bias and finite bias anomalies) are discussed. We also analyse the temperature depen

For the first time an enhancement of weak localization by Andreev-reflection has been measured. This means that the interface between the Sn/Ti contacts and the two-dimensional electron gas (2DEG) in the GaAs/AIGaAsheterostructure is practically barrier-free. The effect can be depressed by increased

We review the mesoscopic transport in a diffusive proximity superconductor made of a normal metal (N) in metallic contact with a superconductor (S). The Andreev reflection of electrons on the N-S interface is responsible for the diffusion of electron pairs in N. Superconducting-like properties are i