Generalized Drude Scattering rate from the memory function formalism: an independent verification of the Sharapov-Carbotte result

Abstract: An explicit perturbative computation of the Mori's memory function was performed by G\"otze and W\"olfle (GW) to calculate Generalized Drude scattering (GDS) rate for the case of electron-impurity and electron-phonon scattering in metals by assuming constant electronic density of states at the Fermi energy. In the present investigation, we go beyond this assumption and extend the GW formalism to the case in which there is a gap around the Fermi surface in electron density of states. The resulting GDS is compared with a recent one by Sharapov and Carbotte (SC) obtained through a different route. We find good agreement between the two at finite frequencies. However, we find discrepancies in the dc scattering rate. These are due to a crucial assumption made in SC namely $\omega >> \vert \Sigma(\epsilon+\omega) - \Sigma^{*}(\epsilon)\vert$. No such high frequency assumption is made in the memory function based technique.