Antonio M. Garcia-Garcia, Juan Diego Urbina, Emil A. Yuzbashyan, Klaus Richter, Boris L. Altshuler
Published 2009-11-08, updated 2011-02-02Version 2
We combine the BCS self-consistency condition, a semiclassical expansion for the spectral density and interaction matrix elements to describe analytically how the superconducting gap depends on the size and shape of a 2d and 3d superconducting grain. In chaotic grains mesoscopic fluctuations of the matrix elements lead to a smooth dependence of the order parameter on the excitation energy. In the integrable case we find shell effects i. e. for certain values of the electron number $N$ a small change in N leads to large changes in the energy gap. With regard to possible experimental tests we provide a detailed analysis of the dependence of the gap on the coherence length and the robustness of shell effects under small geometrical deformations.
Comments: 16 pages, 6 figures, journal version
Journal: Phys. Rev. B 83, 014510 (2011)
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