Phase transitions in the distribution of the Andreev conductance of superconductor-metal junctions with multiple transverse modes

Abstract

We compute analytically the full distribution of Andreev conductance GNS of a metal-superconductor interface with a large number Nc of transverse modes, using a random matrix approach. The probability distribution P(GNS,Nc) in the limit of large Nc displays a Gaussian behavior near the average value <GNS>= (2-2) Nc and asymmetric power-law tails in the two limits of very small and very large GNS. In addition, we find a novel third regime sandwiched between the central Gaussian peak and the power law tail for large GNS. Weakly non-analytic points separate these four regimes---these are shown to be consequences of three phase transitions in an associated Coulomb gas problem.