Abstract
Semiconductor quantum dots are promising single-electron systems for solid-state quantum information processing. Ultrafast sequences of coherent operations may be envisioned with femtosecond light pulses, if the involved quantum states are separated by at least tens of meV. Therefore, small quantum dots with high confinement potentials are favourable. Due to their large Coulomb correlation energies, CdSe quantum dots are ideal candidates.
© 2009 IEEE
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