Ultrafast dephasing of coherent optical phonons in atomically controlled GeTe/Sb2Te3 superlattices

Abstract

Femtosecond dynamics of coherent optical phonons in GeTe/Sb2Te3 superlattices (SLs), a new class of semiconductor SLs with three different states, have been investigated by using a reflection-type pump-probe technique at various lattice temperatures. The time-resolved transient reflectivity (TR) obtained in as-grown SLs exhibits the coherent A1 optical modes at 5.10 THz and 3.78 THz, while only the single A1 mode at 3.68 THz is observed in annealed SLs. The decay rate of the A1 mode in annealed SLs is strongly temperature dependent, while that in as-grown SLs is not temperature dependent. This result indicates that the damping of the coherent A1 phonons in amorphous SLs is governed by the phonon-defect (vacancy) scattering rather than the anharmonic phonon-phonon coupling.