Interplane Transport and Superfluid Density in Layered Superconductors
Abstract
We report on generic trends in the behavior of the interlayer penetration depth λc of several different classes of quasi two-dimensional superconductors including cuprates, Sr2RuO4, transition metal dichalcogenides and organic materials of the (BEDT-TTF)2X-series. Analysis of these trends reveals two distinct patterns in the scaling between the values of λc and the magnitude of the DC conductivity: one realized in the systems with a Fermi liquid (FL) ground state and the other seen in systems with a marked deviation from the FL response. The latter pattern is found primarily in under-doped cuprates and indicates a dramatic enhancement (factor 102) of the energy scale C associated with the formation of the condensate compared to the data for the FL materials. We discuss implications of these results for the understanding of pairing in high-Tc cuprates.
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