Screening in (d+s)-wave superconductors: Application to Raman scattering
Abstract
We study the polarization-dependent electronic Raman response of untwinned YBa2Cu3O7-δ superconductors employing a tight-binding band structure with anisotropic hopping matrix parameters and a superconducting gap with a mixing of d- and s-wave symmetry. Using general arguments we find screening terms in the B\1g scattering channel which are required by gauge invariance. As a result, we obtain a small but measurable softening of the pair-breaking peak, whose position has been attributed for a long time to twice the superconducting gap maximum. Furthermore, we predict superconductivity-induced changes in the phonon line shapes that could provide a way to detect the isotropic s-wave admixture to the superconducting gap.
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