c-Axis Penetration Depth in the Cuprates: Additional Evidence for Incoherent Hopping
Abstract
Measurements of the c-axis penetration depth λc in the cuprates reveal a low-temperature T dependence which is inconsistent with simple models of coupling between the CuO2 layers. In this paper, we examine whether a model based on incoherent hopping between the layers can account for this low-T behavior. We compute λc directly from linear response theory and compare our results with recent experimental measurements on YBa2u3O7-δ as a function of temperature and doping. We find that the data can be reproduced within this model providing the inter-layer scattering is anisotropic and the pairing is d-wave. In addition, our calculations demonstrate that 1/λc2 is proportional to the c-axis critical current, which seems to be a generic feature in weakly coupled layered superconductors.
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