Low-Frequency Optical Conductivity in Inhomogeneous d-wave Superconductors
Abstract
Motivated by the recent optical conductivity experiments on Bi2Sr2CaCu2O8+delta films, we examine the possible origin of low-frequency dissipation in the superconducting state. In the presence of spatial inhomogeneity of the local phase stiffness rhos, it is shown that some spectral weight is removed from omega=0 to finite frequencies and contribute to dissipation. A case where both rhos and the local normal fluid density are inhomogeneous is also considered. We find an enhanced dissipation at low frequency if the two variations are anti-correlated.
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