Evidence for non-conventional pairing in Na\xCoO\2·yH\2O

Abstract

We report on first investigation of the lattice dynamics in the novel superconducting material Na\0.35CoO\2·1.3H\2O and the non-hydrated parent compound Na\0.7CoO\2 by inelastic x-ray scattering. The measured phonon dispersion along the -M direction show a marked softening with hole doping of two optical phonon branches close to the Brillouin zone boundary. The phonon spectra, dispersion, and softening are well reproduced by first-principle calculations. The calculations indicates that the soft branches are mainly composed of Co-vibration modes. The estimation of the critical temperature based on electron-phonon coupling mechanism undisputedly points to a non-conventional superconducting state in this material.

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