Theory of the c-Axis Penetration Depth in the Cuprates

Abstract

Recent measurements of the London penetration depth tensor in the cuprates find a weak temperature dependence along the c-direction which is seemingly inconsistent with evidence for d-wave pairing deduced from in-plane measurements. We demonstrate in this paper that these disparate results are not in contradiction, but can be explained within a theory based on incoherent quasiparticle hopping between the CuO2 layers. By relating the calculated temperature dependence of the penetration depth λc(T) to the c-axis resistivity, we show how the measured ratio λc2(0) / λc2(T) can provide insight into the behavior of c-axis transport below Tc and the related issue of ``confinement.''

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