Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2007-08-16
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
Paper presented in the International Conference on Electronic Properties of Two-dimensional Systems and Modulated Semiconducto
Scientific paper
10.1016/j.physe.2007.09.141
An interesting approach to achieve quantum gate operations in a solid state device is to implement an optically driven quantum gate using two vertically coupled self-assembled quantum dots, a quantum dot molecule (QDM). We present a realistic model for exciton dynamics in InGaAs/GaAs QDMs under intense laser excitation and applied electric fields. The dynamics is obtained by solutions of the Lindblad master equation. A map of the dressed ground state as function of laser energy and applied electric field exhibits rich structure that includes excitonic anticrossings that permit the identification of the relevant couplings. The optical signatures of the dipole-dipole Forster energy transfer mechanism show as splittings of several (spatially) indirect excitonic lines. Moreover, we construct a model for exciton qubit rotations by adiabatic electric field cyclic sweeps into a Forster-tunneling regime which induces level anticrossings. The proposed qubit exhibits Rabi oscillations among two well defined exciton pairs as function of the residence time at the anticrossing.
Rolon Juan E.
Ulloa Sergio E.
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