Generation of Transient Photocurrents in the Topological Surface State of Sb2Te3 by Direct Optical Excitation with Mid-Infrared Pulses

Abstract

We combine tunable mid-infrared (MIR) pump pulses with time- and angle-resolved two-photon photoemission to study ultrafast photoexcitation of the topological surface state (TSS) of Sb2Te3. It is revealed that MIR pulses permit a direct excitation of the unoccupied TSS owing to an optical coupling across the Dirac point. The novel optical coupling provokes asymmetric transient populations of the TSS at k||, which mirrors a macroscopic photoexcited electric surface current. By observing the decay of the asymmetric population, we directly demonstrate the dynamics of the long-lived photocurrent and its protection against backscattering. Our discovery promises important advantages of photoexcitation by MIR pulses for spintronic applications.