Impurity-free interdiffusion in GaAs/Al 0.54Ga 0.46As multiple quantum wells capped with PECVD SiO x

Abstract

Impurity-free vacancy interdiffusion of GaAs/Al 0.54Ga 0.46As quantum wells (QWs) was achieved using SiO x capping followed by rapid thermal annealing at 950 °C. The SiO x films were plasma deposited using N 2O/SiH 4 flow at 300 °C and 20 W rf power. The stoichiometry of capping layers were altered by varying the flowrate of N 2O. In the samples studied, the above process allows continuously variable energy shifts as high as approximately 150 meV while still maintaining clearly resolved excitonic behavior. The degree of intermixing is not controlled by x only but, also, by the density of the SiO x layers. Our results, therefore, suggest that, in addition to the solid solubility of Ga in SiO x, intermixing in SiO x-capped MQW heterostructures depends on the mobility of Ga atoms in the oxide caps. Show more