Theory of Andreev reflection in a junction with a strongly disordered semiconductor
Abstract
We study the conduction of a N~-~Sm~-~S junction, where Sm is a strongly disordered semiconductor. The differential conductance dI/dV of this N~-~Sm~-~S structure is predicted to have a sharp peak at V=0. Unlike the case of a weakly disordered system, this feature persists even in the absence of an additional (Schottky) barrier on the boundary. The zero-bias conductance of such a junction GNS is smaller only by a numerical factor than the conductance in the normal state GN. Implications for experiments on gated heterostructures with superconducting leads are discussed.
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