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Suppression of the "quasiclassical" proximity gap in correlated-metal--superconductor structures

arXiv:cond-mat/0106612 · doi:10.1103/PhysRevLett.88.077002

Abstract

We study the energy and spatial dependence of the local density of states in a superconductor--correlated-metal--superconductor Josephson junction, where the correlated metal is a non-Fermi liquid (described by the Falicov-Kimball model). Many-body correlations are treated with dynamical mean-field theory, extended to inhomogeneous systems. While quasiclassical theories predict a minigap in the spectrum of a disordered Fermi liquid which is proximity-coupled within a mesoscopic junction, we find that increasing electron correlations destroy any minigap that might be opened in the absence of many-body correlations.

5 pages, 3 embedded EPS figures; some issues clarified with new result presented in the inset of Fig. 1