Physics – Condensed Matter – Materials Science
Scientific paper
2006-07-06
Physics
Condensed Matter
Materials Science
Version accepted in Phys. Rev. B
Scientific paper
10.1103/PhysRevB.74.205422
Electron-hole exchange interactions split the exciton ground state into "dark" and "bright" states. The dynamics of those states depends on the internal relaxation time between bright and dark states (spin-flip time), and on the radiative recombination time of the bright states. On the other hand, the calculated values of these recombination times depend not only on the treatment of correlation effects, but also on the accuracy of the electron and hole wavefunctions. We calculate the radiative decay rates for monoexcitons and biexcitons in (In,As)Ga/GaAs self-assembled and colloidal CdSe quantum dots from atomistic correlated wave functions. We show how the radiative decay time tau_R(X^0) of the monoexciton depends on the spin-flip relaxation time between bright and dark states. In contrast, a biexciton has no bright-dark splitting, so the decay time of the biexciton tau_R(XX^0) is insensitive to this spin-flip time. This results in ratios $\tau_R(X^0)/\tau_R(XX^0)$ of 4 in the case of fast spin flip, and a ratio of 2 in the case of slow spin flip. For (In,Ga)As/GaAs, we compare our results with the model calculation of Wimmer et al. [M. Wimmer et al., Phys. Rev. B 73, 165305 (2006)]. When the same spin-flip rates are assumed, our predicted tau_R(X^0)/tau_R(XX^0) agrees with that of Wimmer et al., suggesting that our treatment of correlations is adequate to predict the ratio of monoexciton and biexciton radiative lifetimes. Our results agree well with experiment on self-assembled quantum dots when assuming slow spin flip. Conversely, for colloidal dots the agreement with experiment is best for fast spin flip.
Bester Gabriel
Franceschetti Alberto
Narvaez Gustavo A.
Zunger Alex
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