c-Axis Infrared Conductivity of a dx2-y2-Wave Superconductor with Impurity and Spin-Fluctuation Scattering

Abstract

Results of a calculation of the c-axis infrared conductivity sigmac for a dx2-y2-wave superconductor which include both elastic impurity and inelastic spin-fluctuation scattering are presented and compared with the ab-plane conductivity sigmaab in the same model. In this model,the interlayer c-axis coupling is taken to be weak and diffusive. While in clean systems, inelastic scattering leads to a peak at omega = 4*Delta0 in sigmaab for T < Tc, it has little effect on the corresponding sigmac, which exhibits structure only at omega = 2*Delta0 and is directly related to the single-particle density of states N(omega). The c-axis penetration depth lambdac in the same model is predicted to vary as T3 at low temperatures in clean samples. We discuss recent optical experiments on the cuprates and compare with these predictions.