Abstract
The authors report on high-mobility transport of indirect excitons in coupled GaAs quantum wells. A voltage-tunable in-plane potential gradient is defined for excitons by exploiting the quantum confined Stark effect in combination with a lithographically designed resistive top gate. Excitonic photoluminescence resolved in space, energy, and time provides insight into the in-plane drift dynamics. Across several hundreds of microns an excitonic mobility of 105cm2∕eVs is observed for temperatures below 10K. With increasing temperature the excitonic mobility decreases due to exciton-phonon scattering.
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have