Engineering of the nonradiative transition rates in modulation-doped multiple-quantum wells

1 July 1996

journal article
Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Journal of Quantum Electronics

Vol. 32 (7) , 1155-1160
https://doi.org/10.1109/3.517015

Abstract

The feasibility of the enhancement of the acoustic-phonon limited intersubband transition rate through impurity scattering has been theoretically investigated in double asymmetric-coupled quantum wells. The dependence of the acoustic-phonon rate on the barrier thickness and the effect of the position of the δ-doped region on the impurity rate have been treated rigorously. A 10-Å-doped region with a 1010-cm-2-sheet density can enhance the acoustic-phonon transition limit by more than an order of magnitude. This allows for the design of intersubband lasers in which population inversion between acoustic-phonon limited discrete conduction-band states is achieved by impurity scattering and control of barrier thickness

Keywords

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