AlGaInAs capping layer impact on emission and structure of AlGaAs/GaAs quantum wells with InAs quantum dots

Three types of GaAs/Al_0.30Ga_0.70As quantum wells (QWs) with InAs quantum dots (QDs) cavered by the different capping layers: GaAs (#1), Al_0.30Ga_0.70As (#2) and Al_0.1Ga_0.75In_0.15As (#3), have been investigated. The photoluminescence (PL), its temperature dependence and high resolution X-ray diffraction (HR-XRD) methods were applied. It is revealed that QD emission in the structure #3 is characterized by the lower PL peak energy, highest PL intensity and smaller half widths of PL bands, in comparison with the QD emissions in #1 and #2. PL temperature dependences have been studied that revealing the QD material composition in #3 is closer to InAs than those in #1 and #2. HR-XRD scan fitting permits to understand the process of strain relaxation in studied structures at high QW growth temperatures. This process in the structures #1 and #2 was connected with material composition varying the QDs and capping layers due to Ga/In atom intermixing that leads to the QD emission shift into the higher energy range and PL intensity decreasing. Meanwhile in the structure #3 with Al_0.1Ga_0.75In_0.15As capping, the strain relaxation manifests itself by InAs QD height decreasing without changing the InAs QD material composition. The advantages of Al_0.1Ga_0.75In_0.15As capping layer used and its impact on the emission of InAs QDs have been discussed.