InGaAs-GaAs quantum dots for application in long wavelength (1.3 µm) resonant vertical cavity enhanced devices View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2000-05

AUTHORS

M. V. Maximov, I. L. Krestnikov, Y. M. Shernyakov, A. E. Zhukov, N. A. Maleev, Y. G. Musikhin, V. M. Ustinov, Zh. I. Alferov, A. Y. Chernyshov, N. N. Ledentsov, D. Bimberg, T. Maka, C. M. Sotomayor Torres

ABSTRACT

Microcavity structures containing InGaAs-GaAs quantum dots (QDs) emitting at 1.3µm at 300 K have been studied. The energy distribution of excitons remains an nonequilibrium one up to room temperature due to high localization energies in these QDs. Carrier relaxation is found to proceed mainly via multiphonon processes. The luminescence emission from QDs in a microcavity exhibits a large spectral splitting of TE and TM components as observed in angle-resolved measurements amounting up to 10 nm for an angle of incidence of 30°. A 1.3 µm vertical cavity enhanced QD photodetector based on a single sheet of QDs is shown to have a quantum efficiency >10%. The ground state electroluminescence of a quantum dot resonant cavity light emitting diode shows no saturation up to 2 kAcm−2. More... »

PAGES

487-493

References to SciGraph publications

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s11664-000-0033-4

DOI

http://dx.doi.org/10.1007/s11664-000-0033-4

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1035918506


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32 schema:description Microcavity structures containing InGaAs-GaAs quantum dots (QDs) emitting at 1.3µm at 300 K have been studied. The energy distribution of excitons remains an nonequilibrium one up to room temperature due to high localization energies in these QDs. Carrier relaxation is found to proceed mainly via multiphonon processes. The luminescence emission from QDs in a microcavity exhibits a large spectral splitting of TE and TM components as observed in angle-resolved measurements amounting up to 10 nm for an angle of incidence of 30°. A 1.3 µm vertical cavity enhanced QD photodetector based on a single sheet of QDs is shown to have a quantum efficiency >10%. The ground state electroluminescence of a quantum dot resonant cavity light emitting diode shows no saturation up to 2 kAcm−2.
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