Electron- and hole-related electrical activity of InAs/GaAs quantum dots
Electron- and hole-related electrical activity of InAs/GaAs quantum dots
The electron- and hole-related electrical activity of the InAs/GaAs quantum dot system has been demonstrated with a use of the high-resolution Laplace and conventional DLTS methods combined with below GaAs bandgap illumination. Without the illumination, the DLTS signal refers to the emission process of electrons bound by the dot confining potential in the conduction band. In this experimental mode, single- and double-electron states of the dot could be observed. The resolution of the method allows both charge states of the dot to be observed in the same Laplace DLTS spectrum and thus the relative occupancy factor for both charge states can be determined. This gives the value of the Coulomb blockade energy (∼11 meV). When prior to the DLTS signal detection a short below-bandgap illumination resonant with the dot excitonic energy is applied, a non-equilibrium hole occupancy in the dot is created. This allows the same dots to be studied in order to establish the hole-referred electrical dot activity governed by the confining potential in the valence band.
Experiment, Laplace DLTS, Nanostructures, Quantum dots, Self-assembled InAs/GaAs QD
580-583
Kruszewski, P.
9f2a2b76-1463-4fc3-bd93-ade778ba2d9e
Dobaczewski, L.
915df3da-9f4b-43c4-b421-b06788c3d8cf
Markevich, V. P.
2ac6fb99-876c-40aa-afb3-b8a9f1de8898
Mitchell, C.
0e48c936-a405-434d-818a-d83e382aa826
Missous, M.
98ca61fb-84c6-4ec9-9a91-3bfc2cd8dd78
Peaker, A. R.
6752c21c-f359-4df6-99df-ee2eca350ed3
15 December 2007
Kruszewski, P.
9f2a2b76-1463-4fc3-bd93-ade778ba2d9e
Dobaczewski, L.
915df3da-9f4b-43c4-b421-b06788c3d8cf
Markevich, V. P.
2ac6fb99-876c-40aa-afb3-b8a9f1de8898
Mitchell, C.
0e48c936-a405-434d-818a-d83e382aa826
Missous, M.
98ca61fb-84c6-4ec9-9a91-3bfc2cd8dd78
Peaker, A. R.
6752c21c-f359-4df6-99df-ee2eca350ed3
Kruszewski, P., Dobaczewski, L., Markevich, V. P., Mitchell, C., Missous, M. and Peaker, A. R.
(2007)
Electron- and hole-related electrical activity of InAs/GaAs quantum dots.
Physica B: Condensed Matter, 401-402, .
(doi:10.1016/j.physb.2007.09.026).
Abstract
The electron- and hole-related electrical activity of the InAs/GaAs quantum dot system has been demonstrated with a use of the high-resolution Laplace and conventional DLTS methods combined with below GaAs bandgap illumination. Without the illumination, the DLTS signal refers to the emission process of electrons bound by the dot confining potential in the conduction band. In this experimental mode, single- and double-electron states of the dot could be observed. The resolution of the method allows both charge states of the dot to be observed in the same Laplace DLTS spectrum and thus the relative occupancy factor for both charge states can be determined. This gives the value of the Coulomb blockade energy (∼11 meV). When prior to the DLTS signal detection a short below-bandgap illumination resonant with the dot excitonic energy is applied, a non-equilibrium hole occupancy in the dot is created. This allows the same dots to be studied in order to establish the hole-referred electrical dot activity governed by the confining potential in the valence band.
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Published date: 15 December 2007
Keywords:
Experiment, Laplace DLTS, Nanostructures, Quantum dots, Self-assembled InAs/GaAs QD
Identifiers
Local EPrints ID: 493967
URI: http://eprints.soton.ac.uk/id/eprint/493967
ISSN: 0921-4526
PURE UUID: 48a58b2e-ce7b-4653-ab44-7d7d2152ed9f
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Date deposited: 17 Sep 2024 17:17
Last modified: 18 Sep 2024 01:46
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Contributors
Author:
P. Kruszewski
Author:
L. Dobaczewski
Author:
V. P. Markevich
Author:
C. Mitchell
Author:
M. Missous
Author:
A. R. Peaker
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