M. Titov, M. Mueller, W. Belzig
Published 2006-08-01Version 1
We analyze the charge transport between a one-dimensional weakly interacting electron gas and a superconductor within the scaling approach in the basis of scattering states. We derive the renormalization group equations, which fully account for the intrinsic energy dependence due to Andreev reflection. A strong renormalization of the corresponding reflection phase is predicted even for a perfectly transparent metal-superconductor interface. The interaction-induced suppression of the Andreev conductance is shown to be highly sensitive to the normal state resistance, providing a possible explanation of experiments with carbon-nanotube/superconductor junctions by Morpurgo et al. [Science 286, 263 (2001)].
Comments: 4 pages, 2 figures
Journal: Phys. Rev. Lett. 97, 237006 (2006)
Geometric phases and Andreev reflection in hybrid rings
Andreev reflection at the interface with an oxide in the quantum Hall regime
Quantum effects in graphitic materials: Colossal magnetoresistance, Andreev reflections, Little-Parks effect, ferromagnetism, and granular superconductivity
