Surface contribution to Raman scattering from layered superconductors.

Generalizing recent work, the Raman-scattering intensity from a semi-infinite superconducting superlattice is calculated taking into account the surface contribution to the density response functions. Our work makes use of the formalism of Jain and Allen developed for normal superlattices. The surface contributions are shown to strongly modify the bulk contribution to the Raman-spectrum line shape below 2{Delta}, and also may give rise to additional surface plasmon modes above 2{Delta}. The interplay between the bulk and surface contribution is strongly dependent on the momentum transfer {ital q}{sub {parallel}} parallel to layers. However, we argue that the scattering cross section for the out-of-phase phase modes (which arise from interlayer Cooper pair tunneling) will not be affected and thus should be the only structure exhibited in the Raman spectrum below 2{Delta} for relatively large {ital q}{sub {parallel}}{approximately}0.1{Delta}/{ital v}{sub {ital F}}. The intensity is small but perhaps observable. {copyright} {ital 1996 The American Physical Society.}