Charge transfer fluctuation, d-wave superconductivity, and the B1g Raman phonon in the Cuprates: A detailed analysis

Abstract

The Raman spectrum of the B1g phonon in the superconducting cuprate materials is investigated theoretically in detail in both the normal and superconducting phases, and is contrasted with that of the A1g phonon. A mechanism involving the charge transfer fluctuation between the two oxygen ions in the CuO2 plane coupled to the crystal field perpendicular to the plane is discussed and the resulting electron-phonon coupling is evaluated. Depending on the symmetry of the phonon the weight of different parts of the Fermi surface in the coupling is different. This provides the opportunity to obtain information on the superconducting gap function at certain parts of the Fermi surface. The lineshape of the phonon is then analyzed in detail both in the normal and superconducting states. The Fano lineshape is calculated in the normal state and the change of the linewidth with temperature below Tc is investigated for a dx2-y2 pairing symmetry. Excellent agreement is obtained for the B1g phonon lineshape in YBa2Cu3O7. These experiments, however, can not distinguish between dx2-y2 and a highly anisotropic s-wave pairing.

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