Wh. Chang et al., Excitation density and temperature dependent photoluminescence of InGaAs self-assembled quantum dots, JPN J A P 1, 38(1B), 1999, pp. 554-557
In this paper, we shall report on the excitation density and temperature de
pendent photoluminescence produced by discrete energy levels from InGaAs se
lf assembled quantum dots. While increasing the photoexcitation density, fi
ve peaks originating from discrete energy levels of quantum dot and wetting
layer are observed. By deconvoluting these spectra using multiple Gaussian
fit, the intensity of each state is saturated following its degeneracy. We
describe the lateral confinement of quantum dots using a parabolic potenti
al model. The saturated values are in good agreement with the degeneracy of
this potential type. From the temperature dependent photoluminescence, we
observed the thermally activated quenching of each state. Our results sugge
st that the wetting layer acts as a barrier to the carrier thermallization
processes offering a two dimensional path for inter-dot coupling.