Non-adiabatic phonons within the doped graphene layers of XC6 compounds

Abstract

We report the first Raman scattering measurements of BaC6, SrC6, and YbC6, which along with new data on CaC6, permits a systematic study of the phonons and the electron-phonon interaction within the doped graphene layers of these compounds. The out-of-plane carbon phonon softens as the spacing of the graphene layers is reduced in the series BaC6, SrC6, YbC6, and CaC6. This is due to increasing charge in the π* electronic band. Electron-phonon interaction effects between the in-plane carbon modes at ≈1500∈vcm and the π* electrons cause a strong non-adiabatic renormalization. As charge is transferred into the π* band these non-adiabatic effects are found to increase concurrent with a reduction in the phonon lifetime.