Coupled plasmon - phonon excitations in extrinsic monolayer graphene

Abstract

The existence of an acoustic plasmon in extrinsic (doped or gated) monolayer graphene was found recently in an ab initio calculation with the frozen lattice [M. Pisarra et al., arXiv:1306.6273, 2013]. By the fully dynamic density-functional perturbation theory approach, we demonstrate a strong coupling of the acoustic plasmonic mode to lattice vibrations. Thereby, the acoustic plasmon in graphene does not exist as an isolated excitation, but it is rather bound into a combined plasmon-phonon mode. We show that the coupling provides a mechanism for the bidirectional energy exchange between the electronic and the ionic subsystems with fundamentally, as well as practically, important implications for the lattice cooling and heating by electrons in graphene.