Donor Centers and Absorption Spectra in Quantum Dots

A. Wojs; A.B. Dzyubenko; A.B. Dzyubenko; A.H. MacDonald; C. Riva; D. Pfannkuche; D.M. Larsen; H.A. Bethe; H.L. Fox; H.Q. Lin; J. Adamowski; J. Ahopelto; J. Tulkki; Jaime Zaratiegui García; K.S. Chan; M. Brun; M.A. Reed; Pekka Pietiläinen; Petteri Hyvönen; S. Huant; S.P. Nadja; T. Chakraborty; V. Gudmundsson; V. Gudmundsson; V. Halonen; W. Xie; Z.X. Jiang

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Donor Centers and Absorption Spectra in Quantum Dots

Authors: A. Wojs
A.B. Dzyubenko
A.B. Dzyubenko
A.H. MacDonald
C. Riva
D. Pfannkuche
D.M. Larsen
H.A. Bethe
H.L. Fox
H.Q. Lin
J. Adamowski
J. Ahopelto
J. Tulkki
Jaime Zaratiegui García
K.S. Chan
M. Brun
M.A. Reed
Pekka Pietiläinen
Petteri Hyvönen
S. Huant
S.P. Nadja
T. Chakraborty
V. Gudmundsson
V. Gudmundsson
V. Halonen
W. Xie
Z.X. Jiang
Publication date: 2 September 2002
Publisher: 'American Physical Society (APS)'
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Abstract

We have studied the electronic properties and optical absorption spectra of three different cases of donor centers, D^{0}, D^{-} and D^{2-}, which are subjected to a perpendicular magnetic field, using the exact diagonalization method. The energies of the lowest lying states are obtained as function of the applied magnetic field strength B and the distance zeta between the positive ion and the confinement xy-plane. Our calculations indicate that the positive ion induces transitions in the ground-state, which can be observed clearly in the absorption spectra, but as zeta goes to 0 the strength of the applied magnetic field needed for a transition to occur tends to infinity.Comment: 5 pages, 4 figures, REVTeX 4, gzipped tar fil

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