A. Ashmore scite author profile

The effects of excess electron occupation on the optical properties of excitons ͑X͒ and biexcitons (2X) in a single self-assembled InGaAs quantum dot are investigated. The behavior of X and 2X differ strongly as the number of excess electrons is varied with the biexciton being much more weakly perturbed as a result of its filled s-shell ground state, a direct manifestation of shell-filling effects. Good correlation is found between charging thresholds observed from s-shell recombination perturbed by p-shell occupation, and direct observation of p-shell recombination.

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Charged and neutral exciton complexes in individual self-assembledIn(Ga)Asquantum dots

Finley

et al. 2001

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Charged (X*) and neutral ͑X͒ exciton recombination is reported in the photoluminescence spectra of single In͑Ga͒As quantum dots. Photoluminescence excitation ͑PLE͒ spectra show that the charged excitons are created only for excitation in the barrier or cladding layers of the structure, consistent with their charged character, whereas the neutral excitons in addition show well-defined excitation features for resonant excitation of the dots. The PLE spectra for X and X* exhibit a clear anticorrelation in the region of the wetting layer transition, showing that they compete for photocreated carriers.

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Enhanced phonon-assisted absorption in single InAs/GaAs quantum dots

et al. 2001

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Fine structure of charged and neutral excitons in InAs-Al0.6Ga0.4Asquantum dots

et al. 2002

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Manipulation of the homogeneous linewidth of an individual In(Ga)As quantum dot

et al. 2002

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A. Ashmore

Observation of multicharged excitons and biexcitons in a single InGaAs quantum dot

Charged and neutral exciton complexes in individual self-assembledIn(Ga)Asquantum dots

Enhanced phonon-assisted absorption in single InAs/GaAs quantum dots

Fine structure of charged and neutral excitons in InAs-Al0.6Ga0.4Asquantum dots

Manipulation of the homogeneous linewidth of an individual In(Ga)As quantum dot

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