Non-equilibrium electron relaxation in Graphene

Abstract

We apply the powerful method of memory function formalism to investigate non-equilibrium electron relaxation in graphene. Within the premises of Two Temperature Model (TTM), explicit expressions of the imaginary part of the Memory Function or generalized Drude scattering rate (1/τ) are obtained. In the DC limit and in equilibrium case where electron temperature (Te) is equal to phonon temperature (T), we reproduce the known results (i.e. 1/τ T4 when T<<BG and 1/τ T when T>>BG, where BG is the Bloch-Gr\"uneisen temperature). We report several new results for 1/ τ where T ≠ Te relevant in pump-probe spectroscopic experiments. In the finite frequency regime, we find that 1/τ ω2 when ω<<ωBG, and for ω>>ωBG it is ω independent and also electron temperature independent. These results can be verified in a typical pump-probe experimental setting for graphene.