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Multiband tight-binding theory of disordered A x B 1- x C semiconductor quantum dots

D. Mourad () and G. Czycholl

The European Physical Journal B: Condensed Matter and Complex Systems, 2010, vol. 78, issue 4, 497-507

Abstract: Zero-dimensional nanocrystals, as obtained by chemical synthesis, offer a broad range of applications, as their spectrum and thus their excitation gap can be tailored by variation of their size. Additionally, nanocrystals of the type A x B 1- x C can be realized by alloying of two pure compound semiconductor materials AC and BC, which allows for a continuous tuning of their absorption and emission spectrum with the concentration x. We use the single-particle energies and wave functions calculated from a multiband sp 3 empirical tight-binding model in combination with the configuration interaction scheme to calculate the optical properties of Cd x Zn 1- x Se nanocrystals with a spherical shape. In contrast to common mean-field approaches like the virtual crystal approximation (VCA), we treat the disorder on a microscopic level by taking into account a finite number of realizations for each size and concentration. We then compare the results for the optical properties with recent experimental data and calculate the optical bowing coefficient for further sizes. Copyright EDP Sciences, SIF, Springer-Verlag Berlin Heidelberg 2010

Date: 2010
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DOI: 10.1140/epjb/e2010-10761-0

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