Crossed Andreev reflection and charge imbalance in diffusive NSN structures

Abstract

We formulate a microscopic theory of non-local electron transport in three-terminal diffusive normal-superconducting-normal (NSN) structures with arbitrary interface transmissions. At low energies we predict strong enhancement of non-local spectral conductance g12 1/ due to quantum interference of electrons in disordered N-terminals. In contrast, non-local resistance R12 remains smooth at small and, furthermore, is found to depend neither on parameters of NS interfaces nor on those of N-terminals. At higher temperatures R12 exhibits a peak caused by the trade-off between charge imbalance and Andreev reflection. Our results are in a good agreement with recent experimental observations and can be used for quantitative analysis of future experiments.