Ultrafast Carrier Dynamics And Optical Nonlinearities Of Low-Temperature-Grown Ingaas/Inalas Multiple Quantum Wells

Low-temperature-grown Be-doped In0.53Ga0.47As/In0.52Al0.48As multiple quantum wells are investigated via wavelength-dependent time-resolved nonlinear absorption measurements, Annealed Be-doped material, in contrast to annealed undoped material, is found to retain the carrier lifetime reduction induced by low-temperature growth in this narrow-gap material system, This is attributed to Be-As complexes which, in addition to producing high resistivity material, provide anneal-stable trap states. We also report that ultrafast band-edge and photoinduced absorption effects can produce subpicosecond absorption recovery in material exhibiting much longer (20 ps) defect-meditated carrier trapping. (C) 1996 American Institute of Physics.