Photoluminescence of quaternary GaInAsSb/AlGaAsSb strained multiple quantum wells

1 November 1995

journal article
research article
Published by AIP Publishing in Journal of Applied Physics

Vol. 78 (9) , 5696-5700
https://doi.org/10.1063/1.359628

Abstract

We report the dependence on the excitation power and temperature of the photoluminescence emission from a quaternary Ga_0.75In_0.25As_0.04Sb_0.96/Al_0.22Ga_0.78As ₀₂Sb_0.98 strained multiple‐ quantum‐well structure grown by molecular‐beam epitaxy. Sharp exciton resonances are observed up to room temperature and have been attributed to localized excitons for temperatures ≤80–100 K and to free excitons at higher temperatures up to room temperature by a comparative study with temperature‐dependent absorption spectroscopy. We conclude that the dominant luminescence quenching mechanism in this quaternary system is mainly due to the trapped excitons thermalizing from the localized regions below 100 K, and the thermal carrier activation from the first electron and heavy‐hole subbands to the second electron and heavy‐hole subbands at higher temperatures.

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