Publication Date:
2015-01-06
Description:
We report on the epitaxial formation of type II In 0.5 Ga 0.5 Sb/InAs and InSb/InAs quantum dot ensembles using metal organic vapor phase epitaxy. Employing scanning tunneling spectroscopy, we determine spatial quantum dot dimensions smaller than the de Broglie wavelength of InGaSb, which strongly indicates a three dimensional hole confinement. Photoluminescence spectroscopy at low temperatures yields an enhanced radiative recombination in the mid-infrared regime at energies of 170–200 meV. This luminescence displays a strong excitation power dependence with a blueshift indicating a filling of excited quantum dot hole states. Furthermore, a rate equation model is used to extract the Auger recombination coefficient from the power dependent intensity at 77 K yielding values of 1.35 × 10 −28 cm 6 /s for In 0.5 Ga 0.5 Sb/InAs quantum dots and 1.47 × 10 −27 cm 6 /s for InSb/InAs quantum dots, which is about one order of magnitude lower as previously obtained values for InGaSb superlattices.
Print ISSN:
0003-6951
Electronic ISSN:
1077-3118
Topics:
Physics
