Manipulating the energy levels of semiconductor quantum dots

15 June 1999

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 59 (23) , 15368-15373
https://doi.org/10.1103/physrevb.59.15368

Abstract

Artificial atoms with up to five well-defined electronic shells are fabricated using self-assembled quantum dots (QD’s) grown by molecular-beam epitaxy. State-filling spectroscopy of the zero-dimensional transitions between confined electrons and holes demonstrates that the energy levels are readily tunable. One to five confined levels, with an interlevel energy spacing between 25 and 90 meV, are obtained by adjusting the growth temperature or with post growth annealings. The uniformity and reproducibility of InAs/GaAs QD’s are optimized by adjusting growth parameters affecting the evolution and the equilibrium shape of the QD’s: the amount of strained material deposited, and the annealing time following the InAs deposition. Well-defined excited states are also obtained with stacked layers of vertically self-assembled QD’s.

Keywords

This publication has 43 references indexed in Scilit:

Excited-state radiative lifetimes in self-assembled quantum dots obtained from state-filling spectroscopy
Physical Review B, 1999
Structural and radiative evolution in quantum dots near the ${In}_{x} {Ga}_{1 - x} A s / G a A s$ Stranski-Krastanow transformation
Physical Review B, 1998
Quantum dot heterostructures: Fabrication, properties, lasers (Review)
Semiconductors, 1998
Room temperature CW operation at the ground stateof self-formed quantum dot lasers with multi-stacked dot layer
Electronics Letters, 1996
Room-temperature operation of In _0.4 Ga _0.6 As/GaAsself-organised quantum dot lasers
Electronics Letters, 1996
Phonons and radiative recombination in self-assembled quantum dots
Physical Review B, 1995
Visible luminescence from semiconductor quantum dots in large ensembles
Applied Physics Letters, 1995
Critical layer thickness for self-assembled InAs islands on GaAs
Physical Review B, 1994
Visible photoluminescence from N-dot ensembles and the linewidth of ultrasmall ${Al}_{y}$ ${In}_{1 - y}$ As/ ${Al}_{x}$ ${Ga}_{1 - x}$ As quantum dots
Physical Review B, 1994
Quantum Wire Superlattices and Coupled Quantum Box Arrays: A Novel Method to Suppress Optical Phonon Scattering in Semiconductors
Japanese Journal of Applied Physics, 1989