The temperature dependence of the time-resolved photoluminescence (PL) of self-assembled InAs quantum dots (QDs) with InGaAs covering layers was investigated. The PL decay time increases with temperature from 50 to 170 K, and then decreases as the temperature increases further above 170 K. A model based on the phonon-assisted transition between the QD ground state and the continuum state is used to explain the temperature dependence of the PL decay time. This result suggests that the continuum states are important in the carrier capture in self-assembled InAs QDs.

Self-assembled InAs quantum dots with InGaAs covering layers show a temperature-dependent photoluminescence decay time, suggesting continuum states play a role in carrier capture.

The photoluminescence decay time of self-assembled InAs quantum dots covered by InGaAs layers

Key Takeaway: Self-assembled InAs quantum dots with InGaAs covering layers show a temperature-dependent photoluminescence decay time, suggesting continuum states play a role in carrier capture.