Ultrafast dephasing of coherent optical phonons in atomically controlled GeTe/Sb$_{2}$Te$_{3}$ superlattices (1011.3585v2)

Abstract: Femtosecond dynamics of coherent optical phonons in GeTe/Sb${2}$Te${3}$ 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 A${1}$ optical modes at 5.10 THz and 3.78 THz, while only the single A${1}$ mode at 3.68 THz is observed in annealed SLs. The decay rate of the A${1}$ 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 A${1}$ phonons in amorphous SLs is governed by the phonon-defect (vacancy) scattering rather than the anharmonic phonon-phonon coupling.