Efficient Current Injection Into Single Quantum Dots Through Oxide-Confined p-n-Diodes

Efficient Current Injection Into Single Quantum Dots Through Oxide-Confined p-n-Diodes

Current injection into single quantum dots embedded in vertical p-n-diodes featuring oxide apertures is analyzed in the low-injection regime suitable for single-photon emitters. The experimental and theoretical evidence is found for a rapid lateral spreading of the carriers after passing the oxide a...

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Veröffentlicht in:IEEE transactions on electron devices 2016-05, Vol.63 (5), p.2036-2042
Hauptverfasser: Kantner, Markus, Bandelow, Uwe, Koprucki, Thomas, Schulze, Jan-Hindrik, Strittmatter, Andre, Wunsche, Hans-Jurgen
Format: Artikel
Sprache:eng
Schlagworte:
Apertures
Charge carrier processes
Numerical models
Quantum dots
Quantum dots (QDs)
Radiative recombination
semiconductor device simulation
single-photon sources (SPSs)
Strain
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Zusammenfassung:Current injection into single quantum dots embedded in vertical p-n-diodes featuring oxide apertures is analyzed in the low-injection regime suitable for single-photon emitters. The experimental and theoretical evidence is found for a rapid lateral spreading of the carriers after passing the oxide aperture in the conventional p-i-n-design. By an alternative design employing p-doping up to the oxide aperture, the current spreading can be suppressed resulting in an enhanced current confinement and increased injection efficiencies, both, in the continuous wave and under pulsed excitation.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2016.2538561